Strategic treatment of pressure ulcer using sub-epidermal moisture values

ABSTRACT

The present disclosure provides methods of identifying a patient in need of pressure ulcer treatment and treating the patient with clinical intervention selected based on sub-epidermal moisture values. The present disclosure also provides methods of stratifying groups of patients based on pressure ulcer risks and methods of reducing incidence of pressure ulcers in a care facility.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation application of U.S. application Ser.No. 16/193,636, filed on Nov. 16, 2018, which claims benefit of U.S.Provisional Application No. 62/587,337, which was filed Nov. 16, 2017,and U.S. Provisional Application No. 62/693,810, which was filed Jul. 3,2018. The entire content of these applications is incorporated herein byreference.

FIELD

The present disclosure provides methods of identifying a patient in needof pressure ulcer treatment and treating the patient with clinicalintervention selected based on sub-epidermal moisture values. Thepresent disclosure also provides methods of stratifying groups ofpatients based on pressure ulcer risks and methods of reducing incidenceof pressure ulcers in a care facility.

BACKGROUND

The skin is the largest organ in the human body. It is readily exposedto different kinds of damages and injuries. When the skin and itssurrounding tissues are unable to redistribute external pressure andmechanical forces, ulcers may be formed. Prolonged continuous exposureto even modest pressure, such as the pressure created by the body weightof a supine patient on their posterior skin surfaces, may lead to apressure ulcer. In the presence of other damage, such as the neuropathyand peripheral tissue weakening that can be induced by diabetes, evenperiodic exposure to moderate levels of pressure and stress may lead toan ulcer, for example a foot ulcer.

Pressure ulcers are developed by approximately 2.5 million people a yearin the United States and an equivalent number in the European Union. Inlong-term and critical-care settings, up to 25% of elderly and immobilepatients develop pressure ulcers. Approximately 60,000 U.S. patients dieper year due to infection and other complications from pressure ulcers.

Detecting tissue damage before the skin breaks and intervening with theappropriate therapy to avoid further deterioration of the underlyingtissue is desirable not only for the patient but society. The averagecost of treating pressure-induced damage at the earliest visible sign (aStage 1 ulcer) is only $2,000 but this rises to $129,000 when the ulceris deep enough to expose muscle or bone (a Stage 4 ulcer.) Currently,patients normally receive universal prevention of pressure ulcers,meaning that the prevention does not target to any particular anatomicalsites. Patients only receive a targeted, localized, treatment of ulcerafter the pressure ulcer is developed to the point that it can beidentified by a visual assessment. The current standard to detectpressure ulcers is by visual inspection, which is subjective,unreliable, untimely, and lacks specificity. Therefore, even when apatient is experiencing inflammation of the skin, a precursor of ulcerdevelopment, he or she would not be receiving a targeted, localizedtreatment for the developing ulcer. Instead, the inflammation wouldcontinue to develop into a full-blown ulcer.

SUMMARY

In one aspect, the present disclosure provides for, and includes, amethod of identifying and providing an appropriate level of pressureulcer care to a patient based on a plurality of Sub-Epidermal Moisture(SEM) measurements. In an aspect, a patient is provided withincreasingly effective pressure ulcer interventions based on changes inSEM measurements. In an aspect, a patient is given less intensivepressure ulcer interventions based on changes in SEM measurements.

In one aspect, the present disclosure provides for, and includes, amethod of assessing a patient, the method comprising the steps of:performing an initial SEM scan of a body location selected formonitoring, and assigning the patient to a risk category selected from agroup comprising a plurality of risk categories, where the assigning isbased partially on the initial SEM scan of the body location.

In an aspect, the present disclosure provides for, and includes, amethod of managing care of a patient, the method comprising the stepsof: performing an initial evaluation of the patient and an initial SEMscan of all body locations selected for monitoring upon admission,calculating an initial delta value for each body location selected formonitoring, determining that a patient is deviated and setting anintervention level to N=1 if any initial delta value is greater than orequal to a first threshold, implementing a level-N intervention for eachbody location having a delta value that is greater than or equal to thefirst threshold, and performing SEM scans of all body locations at alevel-N frequency and calculating new delta values.

In an aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of pressure ulcertreatment, the method comprising the steps of: evaluating a patient fora risk of pressure ulcer in a patient upon admission to a care facility,where the evaluating step comprises making a first plurality ofSub-Epidermal Moisture (SEM) measurements in the patient, calculating afirst delta value from a portion of the first plurality of SEMmeasurements, determining whether the first delta value exceeds a firstthreshold, administering a first intervention of level-0 if the firstdelta value does not exceed the first threshold, and administering afirst intervention of level-N if the first delta value exceeds the firstthreshold, where N is an integer and N has a value of 1 or greater. In afurther aspect, the present disclosure provides for, and includes,making a second plurality of SEM measurements in the patient at a firstpre-determined frequency corresponding to the administered interventionlevel, calculating a second delta value from a portion of the secondplurality of SEM measurements, determining whether the second deltavalue exceeds a second threshold, continuing to administer the firstintervention if the second delta value does not exceed the secondthreshold, continuing to make a plurality of SEM measurements at thefirst pre-determined frequency if the second delta value does not exceedthe second threshold, administering a second intervention of level-M ifthe second delta value exceeds the second threshold, where M is aninteger and M is greater than N, and making a plurality of SEMmeasurements at a second pre-determined frequency corresponding tolevel-M if the second delta value exceeds the second threshold. In yet afurther aspect, the present disclosure provides for, and includes,determining whether the second delta value is less than a thirdthreshold, administering a level-(N−1) intervention if the second deltavalue is less than the third threshold and if the first intervention isnot of level-0, and making a plurality of SEM measurements at apre-determined frequency corresponding to level-(N−1) if the seconddelta value is less than the third threshold.

In one aspect, the present disclosure provides for, and includes, amethod of slowing the progression of pressure ulcer development in apatient in need thereof, the method comprising the steps of: identifyinga current intervention of level-K received by the patient, making aplurality of Sub-Epidermal Moisture (SEM) measurements in the patient,calculating a delta value from a portion of the plurality of SEMmeasurements, determining whether the delta value exceeds a firstthreshold, continuing to administer the current intervention if thedelta value does not exceed the first threshold, continuing to make aplurality of SEM measurements at a pre-determined frequencycorresponding to level-K if the delta value does not exceed the firstthreshold, administering a new intervention of level-N if the deltavalue exceeds the first threshold, where N has a value greater than K,and making a plurality of SEM measurements at a pre-determined frequencycorresponding to level-N if the delta value exceeds the first threshold.In a further aspect, the present disclosure provides for, and includes,determining whether the delta value is less than a second threshold,administering a level-L intervention if the delta value is less than thesecond threshold, where L has a non-negative value less than K, andmaking a plurality of SEM measurements at a pre-determined frequencycorresponding to level-L if the delta value is less than the secondthreshold.

In an aspect, the present disclosure provides for, and includes, amethod of stratifying groups of patients in a care facility based onpressure ulcer risk, the method comprising the steps of: making aplurality of Sub-Epidermal Moisture (SEM) measurements in each of thepatients, calculating a delta value from a portion of the plurality ofSEM measurements for each of the patients, determining whether eachdelta value exceeds any values in a set of threshold valuescorresponding to N care levels and assigning a care level to each of thepatients, rearranging the group of patients based on each of thepatient's assigned care levels.

In one aspect, the present disclosure provides for, and includes, amethod of reducing incidence of pressure ulcer in patients admitted to acare facility, the method comprising the steps of: evaluating a patientfor a risk of pressure ulcer upon admission to the care facility, wherethe evaluating step comprises making a first plurality of Sub-EpidermalMoisture (SEM) measurements in the patient, calculating a first deltavalue from a portion of the first plurality of SEM measurements,determining whether the first delta value exceeds a first threshold,administering a first intervention of level-0 if the first delta valuedoes not exceed the first threshold, and administering a & interventionof level-N if the first delta value exceeds the first threshold, where Nis an integer and N has a value of 1 or greater.

In an aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of application of abarrier cream to the patient's heel, the method comprising the steps of:making a plurality of Sub-Epidermal Moisture (SEM) measurements at thepatient's heel, calculating a delta value from a portion of theplurality of SEM measurements, determining whether the delta valueexceeds a threshold corresponding to level N, where N is greater than orequal to 2, administering a barrier cream to the patient's heel if thedelta value exceeds the threshold, and making a plurality of SEMmeasurements every two hours if the delta value exceeds the threshold.

In one aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of application of aneuro-muscular stimulation to the patient's heel, the method comprisingthe steps of: making a plurality of Sub-Epidermal Moisture (SEM)measurements at the patient's heel, calculating a delta value from aportion of the plurality of SEM measurements, determining whether thedelta value exceeds a threshold corresponding to level N, where N isgreater than or equal to 2, administering a neuro-muscular stimulationto the patient's heel if the delta value exceeds the threshold, andmaking a plurality of SEM measurements every hour if the delta valueexceeds the threshold.

In an aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of application of atopical cream to the patient's heel, the method comprising the steps of:making a plurality of Sub-Epidermal Moisture (SEM) measurements at thepatient's heel, calculating a delta value from a portion of theplurality of SEM measurements, determining whether the delta valueexceeds a threshold corresponding to level N, where N is greater than orequal to 2, administering a topical cream to the patient's heel if thedelta value exceeds the threshold, and making a plurality of SEMmeasurements every half an hour if the delta value exceeds thethreshold.

In one aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of application of abarrier cream to the patient's sacrum, the method comprising the stepsof: making a plurality of Sub-Epidermal Moisture (SEM) measurements atthe patient's sacrum, calculating a delta value from a portion of theplurality of SEM measurements, determining whether the delta valueexceeds a threshold corresponding to level N, where N is greater than orequal to 2, administering a barrier cream to the patient's sacrum if thedelta value exceeds the threshold, and making a plurality of SEMmeasurements every six hours if the delta value exceeds the threshold.

In an aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of application of aneuro-muscular stimulation to the patient's sacrum, the methodcomprising the steps of: making a plurality of Sub-Epidermal Moisture(SEM) measurements at the patient's sacrum, calculating a delta valuefrom a portion of the plurality of SEM measurements, determining whetherthe delta value exceeds a threshold corresponding to level N, where N isgreater than or equal to 2, administering a neuro-muscular stimulationto the patient's sacrum if the delta value exceeds the threshold, andmaking a plurality of SEM measurements every four hours if the deltavalue exceeds the threshold.

In one aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of application of atopical cream to the patient's sacrum, the method comprising the stepsof: making a plurality of Sub-Epidermal Moisture (SEM) measurements atthe patient's sacrum, calculating a delta value from a portion of theplurality of SEM measurements, determining whether the delta valueexceeds a threshold corresponding to level N, where N is greater than orequal to 2, administering a topical cream to the patient's sacrum if thedelta value exceeds the threshold, and making a plurality of SEMmeasurements every two hours if the delta value exceeds the threshold.

BRIEF DESCRIPTION OF THE DRAWINGS

Aspects of the disclosure are herein described, by way of example only,with reference to the accompanying drawings. With specific reference nowto the drawings in detail, it is stressed that the particulars shown areby way of example and are for purposes of illustrative discussion ofaspects of the disclosure. In this regard, the description and thedrawings, considered alone and together, make apparent to those skilledin the art how aspects of the disclosure may be practiced.

FIG. 1 depicts an example of an overall process for selecting a pressureulcer treatment based on SEM values from admission to a care facilityuntil discharge from the care facility, in accordance with the presentdisclosure.

FIG. 2A is a sample visual assessment of healthy tissue in accordancewith the present disclosure.

FIG. 2B is a plot of the averages of SEM measurements taken at eachlocation at and around a healthy sacrum in accordance with the presentdisclosure.

FIG. 3A is a sample visual assessment of damaged tissue in accordancewith the present disclosure.

FIG. 3B is a plot of the averages of SEM measurements taken at eachlocation at and around a damaged sacrum in accordance with the presentdisclosure.

FIG. 4 is an illustration of a process for selecting a level ofintervention and monitoring based on the amount by which a delta valuederived from SEM measurements exceeds a threshold value in accordancewith the present disclosure.

FIG. 5 is an example of a workflow guidance matrix where the currentlevel of intervention and the new delta value are used to select the newlevel of intervention in accordance with the present disclosure.

FIGS. 6A, 6B, and 6C depict an example progression over time of a deltavalue for a single patient at a single location where a pressure ulcerdevelops in accordance with the present disclosure.

FIG. 6D is an example plot of a delta value change over time for asingle patient at a single location where a pressure ulcer develops inaccordance with the present disclosure.

FIGS. 7A and 7B are examples of methods of mapping areas of tissuedamage in accordance with the present disclosure.

FIG. 8A is an example of a currently recommended treatment decisionpathway for preventing pressure ulcers in hospital patients using acombination of risk assessment and visual assessment.

FIG. 8B is an example of a current augmented treatment decision pathwayfor preventing pressure ulcers as currently implemented at some healthcare facilities.

FIG. 9 is an example flowchart of how a SEM Scanner may be used in astand-alone process to prevent pressure ulcers, in accordance with thepresent disclosure.

FIG. 10 is an example flowchart of how a SEM Scanner may be used as anadjunct to further improve the augmented treatment decision pathway ofFIG. 8B, in accordance with the present disclosure.

DETAILED DESCRIPTION

This description is not intended to be a detailed catalog of all thedifferent ways in which the disclosure may be implemented, or all thefeatures that may be added to the instant disclosure. For example,features illustrated with respect to one embodiment may be incorporatedinto other embodiments, and features illustrated with respect to aparticular embodiment may be deleted from that embodiment. Thus, thedisclosure contemplates that in some embodiments of the disclosure, anyfeature or combination of features set forth herein can be excluded oromitted. In addition, numerous variations and additions to the variousembodiments suggested herein will be apparent to those skilled in theart in light of the instant disclosure, which do not depart from theinstant disclosure. In other instances, well-known structures,interfaces, and processes have not been shown in detail in order not tounnecessarily obscure the invention. It is intended that no part of thisspecification be construed to effect a disavowal of any part of the fullscope of the invention. Hence, the following descriptions are intendedto illustrate some particular embodiments of the disclosure, and not toexhaustively specify all permutations, combinations and variationsthereof.

Unless otherwise defined, all technical and scientific terms used hereinhave the same meaning as commonly understood by one of ordinary skill inthe art to which this disclosure belongs. The terminology used in thedescription of the disclosure herein is for the purpose of describingparticular aspects or embodiments only and is not intended to belimiting of the disclosure.

All publications, patent applications, patents and other referencescited herein are incorporated by reference in their entireties for theteachings relevant to the sentence and/or paragraph in which thereference is presented. References to techniques employed herein areintended to refer to the techniques as commonly understood in the art,including variations on those techniques or substitutions of equivalenttechniques that would be apparent to one of skill in the art.

U.S. patent application Ser. No. 14/827,375 (“the '375 application”)discloses an apparatus that uses radio frequency (RF) energy to measurethe sub-epidermal capacitance using a bipolar sensor, where thesub-epidermal capacitance corresponds to the moisture content of thetarget region of skin of a patient. The '375 application also disclosesan array of these bipolar sensors of various sizes.

U.S. patent application Ser. No. 15/134,110 discloses an apparatus formeasuring sub-epidermal moisture (SEM) similar to the device shown inFIG. 3, where the device emits and receives an RF signal at a frequencyof 32 kHz through a single coaxial sensor and generates a bioimpedancesignal, then converts this signal to a SEM value.

Both U.S. patent application Ser. Nos. 14/827,375 and 15/134,110 areincorporated herein by reference in their entireties. However, the SEMvalues of this application may be measured by any similar or equivalentdevices or techniques that would be apparent to one of skill in the art.For example, a device measuring the SEM values of this application maybe a wired device, a wireless device, or a system comprising variouscomponents in communication with each other.

Unless the context indicates otherwise, it is specifically intended thatthe various features of the disclosure described herein can be used inany combination. Moreover, the present disclosure also contemplates thatin some embodiments of the disclosure, any feature or combination offeatures set forth herein can be excluded or omitted.

The methods disclosed herein include and comprise one or more steps oractions for achieving the described method. The method steps and/oractions may be interchanged with one another without departing from thescope of the present disclosure. In other words, unless a specific orderof steps or actions is required for proper operation of the embodiment,the order and/or use of specific steps and/or actions may be modifiedwithout departing from the scope of the present disclosure.

As used in the description of the disclosure and the appended claims,the singular forms “a,” “an,” and “the” are intended to include theplural forms as well, unless the context clearly indicates otherwise.

As used herein, “and/or” refers to and encompasses any and all possiblecombinations of one or more of the associated listed items, as well asthe lack of combinations when interpreted in the alternative (“or”).

The terms “about” and “approximately” as used herein when referring to ameasurable value such as a length, a frequency, or a SEM value and thelike, is meant to encompass variations of ±20%, ±10%, ±5%, ±1%, ±0.5%,or even ±0.1% of the specified amount.

As used herein, phrases such as “between X and Y” and “between about Xand Y” should be interpreted to include X and Y. As used herein, phrasessuch as “between about X and Y” mean “between about X and about Y” andphrases such as “from about X to Y” mean “from about X to about Y.”

As used herein, the term “sub-epidermal moisture” or “SEM” refers to theincrease in tissue fluid and local edema caused by vascular leakinessand other changes that modify the underlying structure of the damagedtissue in the presence of continued pressure on tissue, apoptosis,necrosis, and the inflammatory process.

As used herein, a “patient” may be a human or animal subject.

As used herein, “delta” refers to a calculated difference between twoSEM values.

As used herein, the variables “K,” “L,” “M,” and “N” are non-negativeintegers.

FIG. 1 depicts an overall process 100 for selecting a pressure ulcertreatment based on SEM values produced from SEM measurements made usingan SEM scanner in accordance with this disclosure, from admission to acare facility until discharge from the care facility. In an aspect, acare facility is selected from the group consisting of a hospital, anassisted living facility, a residential care facility, a nursing home, along-term care facility, a continuing care community, and an independentliving community. In an aspect, a care facility may be a home or otherresidence of the patient, whereupon the “admit” step 102 will be a firstevaluation of a patient at their home by a nurse or other caregiver. Inone aspect, the schedule of interventions and evaluation intervals usedin a home setting may be different than the corresponding interventionsand intervals used at a hospital.

In an aspect, in process 100, a newly admitted patient receives anintake evaluation in step 104 that includes one or more of a visualexamination of a portion of the patient's skin, completion of at least aportion of a risk assessment protocol that evaluates one or more ofnutrition, mobility, physical activity, physical strength, and abilityto communicate, and SEM measurements made in one or more locations onthe patient's skin. In an aspect, the SEM measurements may includemaking a plurality of SEM measurements at a single “location” on thepatient's skin. In one aspect, “location” is considered as an arearather than a single point such that SEM measurements may be made atspatially separated points within the location. For example, a “heel”location includes the medial, lateral, and posterior surfaces around theheel as well as the posterior portion of the sole of that foot.

In one aspect, once the evaluation step is complete, a determination ismade in step 106 as to whether the patient is “deviated,” i.e., whetherthe combination of the results of the various elements of the evaluationindicate that the patient has, or is at risk of developing, tissuedamage that could lead to a pressure ulcer. Each element of theevaluation may have an individual criterion for level of risk, forexample a scoring system with threshold value that indicates anunacceptable risk. In an aspect, there is a protocol to combine thecriteria to generate a composite parameter that can be used to select alevel of intervention.

In an aspect, if the patient is determined to be at an acceptable levelof risk, the process branches to step 108 which implements the lowestlevel of intervention, designated herein as “level-zero” or “level-0.”Progressing through steps 110 and 112, the patient will be re-assessedusing at least the SEM measurement protocol in step 114 at a frequency,or conversely a time interval, associated with level-0. The process 100then loops back to step 106 to evaluate the results of the SEMmeasurements made in step 114.

In one aspect, if the patient is determined in step 106 to be deviated,then the process branches to step 122, which implements a higher levelof intervention. In an aspect, there is a defined hierarchy ofintervention levels, with each level implementing a more effectiveintervention than the next-lower level. In an aspect, each level alsohas a defined monitoring interval or frequency indicating how often aset of SEM measurements should be made, where higher levels willgenerally have shorter intervals. In this example, the process has beendefined by the hospital, or other administering organization, to step upone level to a level-1 intervention at this point. In another aspect,step 122 may implement a level-2 or higher level of intervention. Theprocess now enters a new loop starting at step 130 where the patientwill now be monitored at a level-N frequency where N is in the range of1 to n, n being the highest defined level of intervention andmonitoring.

In an aspect, at step 134, the patient's history is evaluated todetermine whether their condition is improving. If the patient'scondition is improving, for example as evidenced by a decreasing deltavalue, then the process branches to step 142. In this example, step 142continues to implement the current level of intervention and the processloops through step 140 to steps 130-132-134-142-140 until the deltavalue drops below the threshold. In an aspect, the level of interventionmay be reduced in step 142 based on the magnitude of the delta value asthe delta value trends downward.

In one aspect, if the patient does not show improvement in step 134, theprocess branches to an increase in the level of intervention in step 138provided that the skin is not broken, i.e., an open ulcer has notdeveloped, in step 136. If an open ulcer has developed, the SEM scanningwill now be performed around the periphery of the open wound in step 144to map inflammation or other precursor indication of the ulcerspreading. The ulcer itself is treated in step 148 and this secondaryloop 144-146-148-150 continues until the wound closes, whereupon theprocess returns to step 130.

In an aspect, at any time in process 100, discharge of the patientbranches to step 118, where the condition of the patient upon dischargeor transfer is documented. In an aspect, step 118 comprises a final setof SEM measurements at one of more locations on the patient's body. Inan aspect, these locations include areas that were not receiving anintervention and were not previously identified as at risk. In anaspect, this information is provided to the receiving caregiver. Thepatient is then discharged or transferred in step 120.

In an aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of pressure ulcertreatment, the method comprising the steps of: evaluating a patient fora risk of pressure ulcer in a patient upon admission to a care facility,where the evaluating step comprises making a first plurality ofSub-Epidermal Moisture (SEM) measurements in the patient, calculating afirst delta value from a portion of the first plurality of SEMmeasurements, determining whether the first delta value exceeds a firstthreshold, administering a first intervention of level-0 if the firstdelta value does not exceed the first threshold, and administering afirst intervention of level-N if the first delta value exceeds the firstthreshold, where N is an integer and N has a value of 1 or greater.

In one aspect, a first plurality of SEM measurements is taken at andaround one or more anatomical sites selected from the group consistingof a sternum, a sacrum, a heel, a scapula, an elbow, an ear, and otherfleshy tissues of a patient. In an aspect, a first plurality of SEMmeasurements is separated into sub-groups for analysis based on thegeneral location at which a measurement is taken. In one aspect, a firstplurality of SEM measurements is taken at locations located on one ormore concentric circles centered around an anatomical site. In anaspect, a first plurality of SEM measurements is taken at locationslocated on a straight line at approximately equidistance from ananatomical site.

In one aspect, a first delta value is determined by the differencebetween the maximum SEM value and the minimum SEM value from the firstplurality of SEM measurements collected. In an aspect, a first deltavalue is determined by the difference between the maximum SEM average ofmeasurements taken at one location and the minimum SEM average ofmeasurements taken at a second location. In one aspect, a first deltavalue is determined for a portion of a first plurality of SEMmeasurements made up of a sub-group as defined by location taken. In anaspect, an average SEM value at a location is obtained from two, three,four, five, six, seven, eight, nine, ten, or more than ten SEM valuesmeasured at that location. In one aspect, a first delta value isdetermined by the difference between SEM values derived frommeasurements taken at two bisymmetric locations with respect to acenterline.

In an aspect, a delta value may be calculated from a plurality of SEMmeasurements made at a certain location, or in close proximity around aspecific location, in a plurality of methods. In an aspect, a pluralityof SEM measurements are made in a pre-determined pattern on the skin andthe delta value is calculated by subtracting the SEM value associatedwith a pre-determined position within the pattern from the largest SEMvalue made at the other positions in the pattern. In an aspect, aplurality of SEM measurements are made in a pre-determined pattern onthe skin and the delta value is calculated by identifying the SEM valueassociated with a pre-determined position within the pattern andsubtracting the largest SEM value made at the other positions in thepattern. In an aspect, an average SEM value may be calculated from aportion of a set of SEM values generated by a plurality of SEMmeasurements at a single location and a delta value calculated as thelargest difference between the average and a single SEM value of thesame set. In an aspect, a delta value may be calculated as a ratio ofthe largest SEM value to the smallest SEM value within a set of SEMvalues.

In an aspect, a first threshold may be about 0.3, 0.35, 0.4, 0.45, 0.5,0.55, 0.6, 0.65, 0.7, 0.75, 0.8, 0.85, 0.9, 0.95, 1.0, 1.1, 1.2, 1.3,1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2.0, 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, 2.7,2.8, 2.9, 3.0, 3.1, 3.2, 3.3, 3.4, 3.5, 3.6, 3.7, 3.8, 3.9, 4.0, 4.1,4.2, 4.3, 4.4, 4.5, 4.6, 4.7, 4.8, 4.9, 5.0, 5.1, 5.2, 5.3, 5.4, 5.5,5.6, 5.7, 5.8, 5.9, 6.0, 6.1, 6.2, 6.3, 6.4, 6.5, 6.6, 6.7, 6.8, 6.9,7.0, 7.1, 7.2, 7.3, 7.4, or 7.5. In one aspect, a first threshold mayrange from 0.1 to 8.0, such as from 0.1 to 1.0, from 1.1 to 2.0, from2.1 to 3.0, from 3.1 to 4.0, from 4.1 to 5.0, from 5.1 to 6.0, from 6.1to 7.0, from 7.1 to 8.0, from 0.1 to 7.5, from 0.5 to 8.0, from 1.0 to7.0, from 1.5 to 6.5, from 2.0 to 6.0, from 3.0 to 5.5, from 3.5 to 5.0,or from 4.0 to 4.5. In an aspect, a first threshold can be scaled by afactor or a multiple based on the values provided herein. It will beunderstood that a threshold is not limited by design, but rather, one ofordinary skill in the art would be capable of choosing a predeterminedvalue based on a given unit of SEM. In one aspect, thresholds of thepresent disclosure are varied according to the specific portion of apatient's body on which measurements are being made, or one or morecharacteristics of the patient such as age, height, weight, familyhistory, ethnic group, and other physical characteristics or medicalconditions.

In an aspect, N ranges from 1 to 50, such as from 1 to 2, from 1 to 3,from 1 to 4, from 1 to 5, from 1 to 6, from 1 to 7, from 1 to 8, from 1to 9, from 1 to 10, from 1 to 15, from 1 to 20, from 1 to 25, from 1 to30, from 1 to 35, from 1 to 40, or from 1 to 45.

In one aspect, N is determined by the amount by which the first deltavalue exceeds the first threshold. In an aspect, the amount by which adelta value exceeds a threshold established for (N+1) is greater thanthe amount by which a delta value exceeds a threshold established for N.In one aspect, the amount by which a delta value exceeds a thresholdestablished for (N−1) is less than the amount by which a delta valueexceeds a threshold established for N.

In an aspect, a level-1 (N=1) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 100% ofthe threshold value, such as not more than 95%, not more than 90%, notmore than 85%, not more than 80%, not more than 75%, not more than 70%,not more than 65%, not more than 60%, not more than 55%, not more than50%, not more than 45%, not more than 40%, not more than 35%, not morethan 30%, not more than 25%, not more than 20%, not more than 15%, notmore than 10%, or not more than 5% of the threshold value.

In an aspect, a level-2 (N=2) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 150% ofthe threshold value, such as not more than 145%, not more than 140%, notmore than 135%, not more than 130%, not more than 125%, not more than120%, not more than 115%, not more than 110%, not more than 100%, notmore than 95%, not more than 90%, not more than 85%, not more than 80%,not more than 75%, not more than 70%, not more than 65%, not more than60%, not more than 55%, not more than 50%, not more than 45%, not morethan 40%, not more than 35%, not more than 30%, not more than 25%, notmore than 20%, not more than 15%, not more than 10%, or not more than 5%of the threshold value.

In one aspect, a level-3 (N=3) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 200% ofthe threshold value, such as not more than 195%, not more than 190%, notmore than 185%, not more than 180%, not more than 175%, not more than170%, not more than 165%, not more than 160%, not more than 155%, notmore than 150%, not more than 145%, not more than 140%, not more than135%, not more than 130%, not more than 125%, not more than 120%, notmore than 115%, not more than 110%, not more than 100%, not more than95%, not more than 90%, not more than 85%, not more than 80%, not morethan 75%, not more than 70%, not more than 65%, not more than 60%, notmore than 55%, not more than 50%, not more than 45%, not more than 40%,not more than 35%, not more than 30%, not more than 25%, not more than20%, not more than 15%, not more than 10%, or not more than 5% of thethreshold value.

In one aspect, a level-4 (N=4) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 250% ofthe threshold value, such as not more than 245%, not more than 240%, notmore than 235%, not more than 230%, not more than 225%, not more than220%, not more than 215%, not more than 210%, not more than 205%, notmore than 200%, not more than 195%, not more than 190%, not more than185%, not more than 180%, not more than 175%, not more than 170%, notmore than 165%, not more than 160%, not more than 155%, not more than150%, not more than 145%, not more than 140%, not more than 135%, notmore than 130%, not more than 125%, not more than 120%, not more than115%, not more than 110%, not more than 100%, not more than 95%, notmore than 90%, not more than 85%, not more than 80%, not more than 75%,not more than 70%, not more than 65%, not more than 60%, not more than55%, not more than 50%, not more than 45%, not more than 40%, not morethan 35%, not more than 30%, not more than 25%, not more than 20%, notmore than 15%, not more than 10%, or not more than 5% of the thresholdvalue.

In one aspect, a level-5 (N=5) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 300% ofthe threshold value, such as not more than 295%, not more than 290%, notmore than 285%, not more than 280%, not more than 275%, not more than270%, not more than 265%, not more than 260%, not more than 255%, notmore than 250%, not more than 245%, not more than 240%, not more than235%, not more than 230%, not more than 225%, not more than 220%, notmore than 215%, not more than 210%, not more than 205%, not more than200%, not more than 195%, not more than 190%, not more than 185%, notmore than 180%, not more than 175%, not more than 170%, not more than165%, not more than 160%, not more than 155%, not more than 150%, notmore than 145%, not more than 140%, not more than 135%, not more than130%, not more than 125%, not more than 120%, not more than 115%, notmore than 110%, not more than 100%, not more than 95%, not more than90%, not more than 85%, not more than 80%, not more than 75%, not morethan 70%, not more than 65%, not more than 60%, not more than 55%, notmore than 50%, not more than 45%, not more than 40%, not more than 35%,not more than 30%, not more than 25%, not more than 20%, not more than15%, not more than 10%, or not more than 5% of the threshold value.

In one aspect, a level-6 (N=6) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 350% ofthe threshold value, such as not more than 345%, not more than 340%, notmore than 335%, not more than 330%, not more than 325%, not more than320%, not more than 315%, not more than 310%, not more than 305%, notmore than 300%, not more than 295%, not more than 290%, not more than285%, not more than 280%, not more than 275%, not more than 270%, notmore than 265%, not more than 260%, not more than 255%, not more than250%, not more than 245%, not more than 240%, not more than 235%, notmore than 230%, not more than 225%, not more than 220%, not more than215%, not more than 210%, not more than 205%, not more than 200%, notmore than 195%, not more than 190%, not more than 185%, not more than180%, not more than 175%, not more than 170%, not more than 165%, notmore than 160%, not more than 155%, not more than 150%, not more than145%, not more than 140%, not more than 135%, not more than 130%, notmore than 125%, not more than 120%, not more than 115%, not more than110%, not more than 100%, not more than 95%, not more than 90%, not morethan 85%, not more than 80%, not more than 75%, not more than 70%, notmore than 65%, not more than 60%, not more than 55%, not more than 50%,not more than 45%, not more than 40%, not more than 35%, not more than30%, not more than 25%, not more than 20%, not more than 15%, not morethan 10%, or not more than 5% of the threshold value.

In one aspect, a level-7 (N=7) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 400% ofthe threshold value, such as not more than 395%, not more than 390%, notmore than 385%, not more than 380%, not more than 375%, not more than370%, not more than 365%, not more than 360%, not more than 355%, notmore than 350%, not more than 345%, not more than 340%, not more than335%, not more than 330%, not more than 325%, not more than 320%, notmore than 315%, not more than 310%, not more than 305%, not more than300%, not more than 295%, not more than 290%, not more than 285%, notmore than 280%, not more than 275%, not more than 270%, not more than265%, not more than 260%, not more than 255%, not more than 250%, notmore than 245%, not more than 240%, not more than 235%, not more than230%, not more than 225%, not more than 220%, not more than 215%, notmore than 210%, not more than 205%, not more than 200%, not more than195%, not more than 190%, not more than 185%, not more than 180%, notmore than 175%, not more than 170%, not more than 165%, not more than160%, not more than 155%, not more than 150%, not more than 145%, notmore than 140%, not more than 135%, not more than 130%, not more than125%, not more than 120%, not more than 115%, not more than 110%, notmore than 100%, not more than 95%, not more than 90%, not more than 85%,not more than 80%, not more than 75%, not more than 70%, not more than65%, not more than 60%, not more than 55%, not more than 50%, not morethan 45%, not more than 40%, not more than 35%, not more than 30%, notmore than 25%, not more than 20%, not more than 15%, not more than 10%,or not more than 5% of the threshold value.

In one aspect, a level-8 (N=8) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 450% ofthe threshold value, such as not more than 445%, not more than 440%, notmore than 435%, not more than 430%, not more than 425%, not more than420%, not more than 415%, not more than 410%, not more than 405%, notmore than 400%, not more than 395%, not more than 390%, not more than385%, not more than 380%, not more than 375%, not more than 370%, notmore than 365%, not more than 360%, not more than 355%, not more than350%, not more than 345%, not more than 340%, not more than 335%, notmore than 330%, not more than 325%, not more than 320%, not more than315%, not more than 310%, not more than 305%, not more than 300%, notmore than 295%, not more than 290%, not more than 285%, not more than280%, not more than 275%, not more than 270%, not more than 265%, notmore than 260%, not more than 255%, not more than 250%, not more than245%, not more than 240%, not more than 235%, not more than 230%, notmore than 225%, not more than 220%, not more than 215%, not more than210%, not more than 205%, not more than 200%, not more than 195%, notmore than 190%, not more than 185%, not more than 180%, not more than175%, not more than 170%, not more than 165%, not more than 160%, notmore than 155%, not more than 150%, not more than 145%, not more than140%, not more than 135%, not more than 130%, not more than 125%, notmore than 120%, not more than 115%, not more than 110%, not more than100%, not more than 95%, not more than 90%, not more than 85%, not morethan 80%, not more than 75%, not more than 70%, not more than 65%, notmore than 60%, not more than 55%, not more than 50%, not more than 45%,not more than 40%, not more than 35%, not more than 30%, not more than25%, not more than 20%, not more than 15%, not more than 10%, or notmore than 5% of the threshold value.

In one aspect, a level-9 (N=9) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 500% ofthe threshold value, such as not more than 495%, not more than 490%, notmore than 485%, not more than 480%, not more than 475%, not more than470%, not more than 465%, not more than 460%, not more than 455%, notmore than 450%, not more than 445%, not more than 440%, not more than435%, not more than 430%, not more than 425%, not more than 420%, notmore than 415%, not more than 410%, not more than 405%, not more than400%, not more than 395%, not more than 390%, not more than 385%, notmore than 380%, not more than 375%, not more than 370%, not more than365%, not more than 360%, not more than 355%, not more than 350%, notmore than 345%, not more than 340%, not more than 335%, not more than330%, not more than 325%, not more than 320%, not more than 315%, notmore than 310%, not more than 305%, not more than 300%, not more than295%, not more than 290%, not more than 285%, not more than 280%, notmore than 275%, not more than 270%, not more than 265%, not more than260%, not more than 255%, not more than 250%, not more than 245%, notmore than 240%, not more than 235%, not more than 230%, not more than225%, not more than 220%, not more than 215%, not more than 210%, notmore than 205%, not more than 200%, not more than 195%, not more than190%, not more than 185%, not more than 180%, not more than 175%, notmore than 170%, not more than 165%, not more than 160%, not more than155%, not more than 150%, not more than 145%, not more than 140%, notmore than 135%, not more than 130%, not more than 125%, not more than120%, not more than 115%, not more than 110%, not more than 100%, notmore than 95%, not more than 90%, not more than 85%, not more than 80%,not more than 75%, not more than 70%, not more than 65%, not more than60%, not more than 55%, not more than 50%, not more than 45%, not morethan 40%, not more than 35%, not more than 30%, not more than 25%, notmore than 20%, not more than 15%, not more than 10%, or not more than 5%of the threshold value.

In one aspect, a level-10 (N=10) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 550% ofthe threshold value, such as not more than 545%, not more than 540%, notmore than 535%, not more than 530%, not more than 525%, not more than520%, not more than 515%, not more than 510%, not more than 505%, notmore than 500%, not more than 495%, not more than 490%, not more than485%, not more than 480%, not more than 475%, not more than 470%, notmore than 465%, not more than 460%, not more than 455%, not more than450%, not more than 445%, not more than 440%, not more than 435%, notmore than 430%, not more than 425%, not more than 420%, not more than415%, not more than 410%, not more than 405%, not more than 400%, notmore than 395%, not more than 390%, not more than 385%, not more than380%, not more than 375%, not more than 370%, not more than 365%, notmore than 360%, not more than 355%, not more than 350%, not more than345%, not more than 340%, not more than 335%, not more than 330%, notmore than 325%, not more than 320%, not more than 315%, not more than310%, not more than 305%, not more than 300%, not more than 295%, notmore than 290%, not more than 285%, not more than 280%, not more than275%, not more than 270%, not more than 265%, not more than 260%, notmore than 255%, not more than 250%, not more than 245%, not more than240%, not more than 235%, not more than 230%, not more than 225%, notmore than 220%, not more than 215%, not more than 210%, not more than205%, not more than 200%, not more than 195%, not more than 190%, notmore than 185%, not more than 180%, not more than 175%, not more than170%, not more than 165%, not more than 160%, not more than 155%, notmore than 150%, not more than 145%, not more than 140%, not more than135%, not more than 130%, not more than 125%, not more than 120%, notmore than 115%, not more than 110%, not more than 100%, not more than95%, not more than 90%, not more than 85%, not more than 80%, not morethan 75%, not more than 70%, not more than 65%, not more than 60%, notmore than 55%, not more than 50%, not more than 45%, not more than 40%,not more than 35%, not more than 30%, not more than 25%, not more than20%, not more than 15%, not more than 10%, or not more than 5% of thethreshold value.

In one aspect, a level-N intervention is more effective than a level-0intervention. In an aspect, a level-(N+1) intervention is more effectivethan a level-N intervention. In one aspect, a level-(N−1) interventionis less effective than a level-N intervention.

In an aspect, the evaluating step of the present disclosure furthercomprises performing a visual assessment. In one aspect, the visualassessment is performed in accordance with the guidelines of theNational Pressure Ulcer Advisory Panel (NPUAP).

In one aspect, the evaluating step of the present disclosure furthercomprises performing a risk assessment. In an aspect, the riskassessment is performed in accordance with a test selected from thegroup consisting of the Braden Scale, the Gosnell Scale, the NortonScale, and the Waterlow Scale.

In an aspect, the present disclosure further provides for, and includes,making a second plurality of SEM measurements in the patient at a firstpre-determined frequency corresponding to the administered interventionlevel, calculating a second delta value from a portion of the secondplurality of SEM measurements, determining whether the second deltavalue exceeds a second threshold, continuing to administer the firstintervention if the second delta value does not exceed the secondthreshold, continuing to make a plurality of SEM measurements at thefirst pre-determined frequency if the second delta value does not exceedthe second threshold, administering a second intervention of level-M ifthe second delta value exceeds the second threshold, where M is aninteger and M is greater than N, and making a plurality of SEMmeasurements at a second pre-determined frequency corresponding tolevel-M if the second delta value exceeds the second threshold.

In one aspect, a pre-determined frequency is selected from the groupconsisting of at least once every 72 hours, at least once every 48hours, at least once every 24 hours, at least once every 12 hours, atleast once every 8 hours, at least once every 6 hours, at least onceevery 4 hours, at least once every 3 hours, at least once every 2 hours,at least once every hour, and at least once every half an hour.

In one aspect, a second plurality of SEM measurements is taken at andaround one or more anatomical sites selected from the group consistingof a sternum, a sacrum, a heel, a scapula, an elbow, an ear, and otherfleshy tissues of a patient. In an aspect, a second plurality of SEMmeasurements is separated into sub-groups for analysis based on thegeneral location at which a measurement is taken. In one aspect, asecond plurality of SEM measurements is taken at locations located onone or more concentric circles centered around an anatomical site. In anaspect, a second plurality of SEM measurements is taken at locationslocated on a straight line at approximately equidistance from ananatomical site. In an aspect, a second plurality of SEM measurementsare made at the same locations where a first plurality of SEMmeasurements were taken. In one aspect, a second plurality of SEMmeasurements are made at some of the same locations where a firstplurality of SEM measurements were taken. In an aspect, a secondplurality of SEM measurements are made near the locations where a firstplurality of SEM measurements were taken. In one aspect, a secondplurality of SEM measurements are made at different locations than wherea first plurality of SEM measurements were taken.

In an aspect, a second delta value is determined by the differencebetween the maximum SEM value and the minimum SEM value from the secondplurality of SEM measurements collected. In one aspect, a second deltavalue is determined by the difference between the maximum SEM average ofmeasurements taken at one location and the minimum SEM average ofmeasurements taken at a second location. In one aspect, a second deltavalue is determined for a portion of a second plurality of SEMmeasurements made up of a sub-group as defined by location taken.

In an aspect, a second threshold may be about 0.3, 0.35, 0.4, 0.45, 0.5,0.55, 0.6, 0.65, 0.7, 0.75, 0.8, 0.85, 0.9, 0.95, 1.0, 1.1, 1.2, 1.3,1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2.0, 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, 2.7,2.8, 2.9, 3.0, 3.1, 3.2, 3.3, 3.4, 3.5, 3.6, 3.7, 3.8, 3.9, 4.0, 4.1,4.2, 4.3, 4.4, 4.5, 4.6, 4.7, 4.8, 4.9, 5.0, 5.1, 5.2, 5.3, 5.4, 5.5,5.6, 5.7, 5.8, 5.9, 6.0, 6.1, 6.2, 6.3, 6.4, 6.5, 6.6, 6.7, 6.8, 6.9,7.0, 7.1, 7.2, 7.3, 7.4, or 7.5. In one aspect, a second threshold mayrange from 0.1 to 8.0, such as from 0.1 to 1.0, from 1.1 to 2.0, from2.1 to 3.0, from 3.1 to 4.0, from 4.1 to 5.0, from 5.1 to 6.0, from 6.1to 7.0, from 7.1 to 8.0, from 0.1 to 7.5, from 0.5 to 8.0, from 1.0 to7.0, from 1.5 to 6.5, from 2.0 to 6.0, from 3.0 to 5.5, from 3.5 to 5.0,or from 4.0 to 4.5. In an aspect, a second threshold can be scaled by afactor or a multiple based on the values provided herein. In one aspect,a second threshold can be the same as a first threshold. In an aspect, asecond threshold can be greater than a first threshold. In one aspect, asecond threshold can be less than a first threshold.

In an aspect, M ranges from 2 to 50, such as from 2 to 3, from 2 to 4,from 2 to 5, from 2 to 6, from 2 to 7, from 2 to 8, from 2 to 9, from 2to 10, from 2 to 15, from 2 to 20, from 2 to 25, from 2 to 30, from 2 to35, from 2 to 40, or from 2 to 45.

In one aspect, M is determined by the amount by which the second deltavalue exceeds the second threshold. In an aspect, the amount by which adelta value exceeds a threshold established for (M+1) is greater thanthe amount by which a delta value exceeds a threshold established for M.In one aspect, the amount by which a delta value exceeds a thresholdestablished for (M−1) is less than the amount by which a delta valueexceeds a threshold established for M.

In an aspect, a level-1 (M=1) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 100% ofthe threshold value, such as not more than 95%, not more than 90%, notmore than 85%, not more than 80%, not more than 75%, not more than 70%,not more than 65%, not more than 60%, not more than 55%, not more than50%, not more than 45%, not more than 40%, not more than 35%, not morethan 30%, not more than 25%, not more than 20%, not more than 15%, notmore than 10%, or not more than 5% of the threshold value.

In an aspect, a level-2 (M=2) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 150% ofthe threshold value, such as not more than 145%, not more than 140%, notmore than 135%, not more than 130%, not more than 125%, not more than120%, not more than 115%, not more than 110%, not more than 100%, notmore than 95%, not more than 90%, not more than 85%, not more than 80%,not more than 75%, not more than 70%, not more than 65%, not more than60%, not more than 55%, not more than 50%, not more than 45%, not morethan 40%, not more than 35%, not more than 30%, not more than 25%, notmore than 20%, not more than 15%, not more than 10%, or not more than 5%of the threshold value.

In one aspect, a level-3 (M=3) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 200% ofthe threshold value, such as not more than 195%, not more than 190%, notmore than 185%, not more than 180%, not more than 175%, not more than170%, not more than 165%, not more than 160%, not more than 155%, notmore than 150%, not more than 145%, not more than 140%, not more than135%, not more than 130%, not more than 125%, not more than 120%, notmore than 115%, not more than 110%, not more than 100%, not more than95%, not more than 90%, not more than 85%, not more than 80%, not morethan 75%, not more than 70%, not more than 65%, not more than 60%, notmore than 55%, not more than 50%, not more than 45%, not more than 40%,not more than 35%, not more than 30%, not more than 25%, not more than20%, not more than 15%, not more than 10%, or not more than 5% of thethreshold value.

In one aspect, a level-4 (M=4) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 250% ofthe threshold value, such as not more than 245%, not more than 240%, notmore than 235%, not more than 230%, not more than 225%, not more than220%, not more than 215%, not more than 210%, not more than 205%, notmore than 200%, not more than 195%, not more than 190%, not more than185%, not more than 180%, not more than 175%, not more than 170%, notmore than 165%, not more than 160%, not more than 155%, not more than150%, not more than 145%, not more than 140%, not more than 135%, notmore than 130%, not more than 125%, not more than 120%, not more than115%, not more than 110%, not more than 100%, not more than 95%, notmore than 90%, not more than 85%, not more than 80%, not more than 75%,not more than 70%, not more than 65%, not more than 60%, not more than55%, not more than 50%, not more than 45%, not more than 40%, not morethan 35%, not more than 30%, not more than 25%, not more than 20%, notmore than 15%, not more than 10%, or not more than 5% of the thresholdvalue.

In one aspect, a level-5 (M=5) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 300% ofthe threshold value, such as not more than 295%, not more than 290%, notmore than 285%, not more than 280%, not more than 275%, not more than270%, not more than 265%, not more than 260%, not more than 255%, notmore than 250%, not more than 245%, not more than 240%, not more than235%, not more than 230%, not more than 225%, not more than 220%, notmore than 215%, not more than 210%, not more than 205%, not more than200%, not more than 195%, not more than 190%, not more than 185%, notmore than 180%, not more than 175%, not more than 170%, not more than165%, not more than 160%, not more than 155%, not more than 150%, notmore than 145%, not more than 140%, not more than 135%, not more than130%, not more than 125%, not more than 120%, not more than 115%, notmore than 110%, not more than 100%, not more than 95%, not more than90%, not more than 85%, not more than 80%, not more than 75%, not morethan 70%, not more than 65%, not more than 60%, not more than 55%, notmore than 50%, not more than 45%, not more than 40%, not more than 35%,not more than 30%, not more than 25%, not more than 20%, not more than15%, not more than 10%, or not more than 5% of the threshold value.

In one aspect, a level-6 (M=6) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 350% ofthe threshold value, such as not more than 345%, not more than 340%, notmore than 335%, not more than 330%, not more than 325%, not more than320%, not more than 315%, not more than 310%, not more than 305%, notmore than 300%, not more than 295%, not more than 290%, not more than285%, not more than 280%, not more than 275%, not more than 270%, notmore than 265%, not more than 260%, not more than 255%, not more than250%, not more than 245%, not more than 240%, not more than 235%, notmore than 230%, not more than 225%, not more than 220%, not more than215%, not more than 210%, not more than 205%, not more than 200%, notmore than 195%, not more than 190%, not more than 185%, not more than180%, not more than 175%, not more than 170%, not more than 165%, notmore than 160%, not more than 155%, not more than 150%, not more than145%, not more than 140%, not more than 135%, not more than 130%, notmore than 125%, not more than 120%, not more than 115%, not more than110%, not more than 100%, not more than 95%, not more than 90%, not morethan 85%, not more than 80%, not more than 75%, not more than 70%, notmore than 65%, not more than 60%, not more than 55%, not more than 50%,not more than 45%, not more than 40%, not more than 35%, not more than30%, not more than 25%, not more than 20%, not more than 15%, not morethan 10%, or not more than 5% of the threshold value.

In one aspect, a level-7 (M=7) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 400% ofthe threshold value, such as not more than 395%, not more than 390%, notmore than 385%, not more than 380%, not more than 375%, not more than370%, not more than 365%, not more than 360%, not more than 355%, notmore than 350%, not more than 345%, not more than 340%, not more than335%, not more than 330%, not more than 325%, not more than 320%, notmore than 315%, not more than 310%, not more than 305%, not more than300%, not more than 295%, not more than 290%, not more than 285%, notmore than 280%, not more than 275%, not more than 270%, not more than265%, not more than 260%, not more than 255%, not more than 250%, notmore than 245%, not more than 240%, not more than 235%, not more than230%, not more than 225%, not more than 220%, not more than 215%, notmore than 210%, not more than 205%, not more than 200%, not more than195%, not more than 190%, not more than 185%, not more than 180%, notmore than 175%, not more than 170%, not more than 165%, not more than160%, not more than 155%, not more than 150%, not more than 145%, notmore than 140%, not more than 135%, not more than 130%, not more than125%, not more than 120%, not more than 115%, not more than 110%, notmore than 100%, not more than 95%, not more than 90%, not more than 85%,not more than 80%, not more than 75%, not more than 70%, not more than65%, not more than 60%, not more than 55%, not more than 50%, not morethan 45%, not more than 40%, not more than 35%, not more than 30%, notmore than 25%, not more than 20%, not more than 15%, not more than 10%,or not more than 5% of the threshold value.

In one aspect, a level-8 (M=8) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 450% ofthe threshold value, such as not more than 445%, not more than 440%, notmore than 435%, not more than 430%, not more than 425%, not more than420%, not more than 415%, not more than 410%, not more than 405%, notmore than 400%, not more than 395%, not more than 390%, not more than385%, not more than 380%, not more than 375%, not more than 370%, notmore than 365%, not more than 360%, not more than 355%, not more than350%, not more than 345%, not more than 340%, not more than 335%, notmore than 330%, not more than 325%, not more than 320%, not more than315%, not more than 310%, not more than 305%, not more than 300%, notmore than 295%, not more than 290%, not more than 285%, not more than280%, not more than 275%, not more than 270%, not more than 265%, notmore than 260%, not more than 255%, not more than 250%, not more than245%, not more than 240%, not more than 235%, not more than 230%, notmore than 225%, not more than 220%, not more than 215%, not more than210%, not more than 205%, not more than 200%, not more than 195%, notmore than 190%, not more than 185%, not more than 180%, not more than175%, not more than 170%, not more than 165%, not more than 160%, notmore than 155%, not more than 150%, not more than 145%, not more than140%, not more than 135%, not more than 130%, not more than 125%, notmore than 120%, not more than 115%, not more than 110%, not more than100%, not more than 95%, not more than 90%, not more than 85%, not morethan 80%, not more than 75%, not more than 70%, not more than 65%, notmore than 60%, not more than 55%, not more than 50%, not more than 45%,not more than 40%, not more than 35%, not more than 30%, not more than25%, not more than 20%, not more than 15%, not more than 10%, or notmore than 5% of the threshold value.

In one aspect, a level-9 (M=9) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 500% ofthe threshold value, such as not more than 495%, not more than 490%, notmore than 485%, not more than 480%, not more than 475%, not more than470%, not more than 465%, not more than 460%, not more than 455%, notmore than 450%, not more than 445%, not more than 440%, not more than435%, not more than 430%, not more than 425%, not more than 420%, notmore than 415%, not more than 410%, not more than 405%, not more than400%, not more than 395%, not more than 390%, not more than 385%, notmore than 380%, not more than 375%, not more than 370%, not more than365%, not more than 360%, not more than 355%, not more than 350%, notmore than 345%, not more than 340%, not more than 335%, not more than330%, not more than 325%, not more than 320%, not more than 315%, notmore than 310%, not more than 305%, not more than 300%, not more than295%, not more than 290%, not more than 285%, not more than 280%, notmore than 275%, not more than 270%, not more than 265%, not more than260%, not more than 255%, not more than 250%, not more than 245%, notmore than 240%, not more than 235%, not more than 230%, not more than225%, not more than 220%, not more than 215%, not more than 210%, notmore than 205%, not more than 200%, not more than 195%, not more than190%, not more than 185%, not more than 180%, not more than 175%, notmore than 170%, not more than 165%, not more than 160%, not more than155%, not more than 150%, not more than 145%, not more than 140%, notmore than 135%, not more than 130%, not more than 125%, not more than120%, not more than 115%, not more than 110%, not more than 100%, notmore than 95%, not more than 90%, not more than 85%, not more than 80%,not more than 75%, not more than 70%, not more than 65%, not more than60%, not more than 55%, not more than 50%, not more than 45%, not morethan 40%, not more than 35%, not more than 30%, not more than 25%, notmore than 20%, not more than 15%, not more than 10%, or not more than 5%of the threshold value.

In one aspect, a level-10 (M=10) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 550% ofthe threshold value, such as not more than 545%, not more than 540%, notmore than 535%, not more than 530%, not more than 525%, not more than520%, not more than 515%, not more than 510%, not more than 505%, notmore than 500%, not more than 495%, not more than 490%, not more than485%, not more than 480%, not more than 475%, not more than 470%, notmore than 465%, not more than 460%, not more than 455%, not more than450%, not more than 445%, not more than 440%, not more than 435%, notmore than 430%, not more than 425%, not more than 420%, not more than415%, not more than 410%, not more than 405%, not more than 400%, notmore than 395%, not more than 390%, not more than 385%, not more than380%, not more than 375%, not more than 370%, not more than 365%, notmore than 360%, not more than 355%, not more than 350%, not more than345%, not more than 340%, not more than 335%, not more than 330%, notmore than 325%, not more than 320%, not more than 315%, not more than310%, not more than 305%, not more than 300%, not more than 295%, notmore than 290%, not more than 285%, not more than 280%, not more than275%, not more than 270%, not more than 265%, not more than 260%, notmore than 255%, not more than 250%, not more than 245%, not more than240%, not more than 235%, not more than 230%, not more than 225%, notmore than 220%, not more than 215%, not more than 210%, not more than205%, not more than 200%, not more than 195%, not more than 190%, notmore than 185%, not more than 180%, not more than 175%, not more than170%, not more than 165%, not more than 160%, not more than 155%, notmore than 150%, not more than 145%, not more than 140%, not more than135%, not more than 130%, not more than 125%, not more than 120%, notmore than 115%, not more than 110%, not more than 100%, not more than95%, not more than 90%, not more than 85%, not more than 80%, not morethan 75%, not more than 70%, not more than 65%, not more than 60%, notmore than 55%, not more than 50%, not more than 45%, not more than 40%,not more than 35%, not more than 30%, not more than 25%, not more than20%, not more than 15%, not more than 10%, or not more than 5% of thethreshold value.

In one aspect, the present disclosure further provides for, andincludes, determining whether the second delta value is less than athird threshold, administering a level-(N−1) intervention if the seconddelta value is less than the third threshold and if the firstintervention is not of level-0, and making a plurality of SEMmeasurements at a pre-determined frequency corresponding to level-(N−1)if the second delta value is less than the third threshold.

In an aspect, a third threshold may be about 0.3, 0.35, 0.4, 0.45, 0.5,0.55, 0.6, 0.65, 0.7, 0.75, 0.8, 0.85, 0.9, 0.95, 1.0, 1.1, 1.2, 1.3,1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2.0, 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, 2.7,2.8, 2.9, 3.0, 3.1, 3.2, 3.3, 3.4, 3.5, 3.6, 3.7, 3.8, 3.9, 4.0, 4.1,4.2, 4.3, 4.4, 4.5, 4.6, 4.7, 4.8, 4.9, 5.0, 5.1, 5.2, 5.3, 5.4, 5.5,5.6, 5.7, 5.8, 5.9, 6.0, 6.1, 6.2, 6.3, 6.4, 6.5, 6.6, 6.7, 6.8, 6.9,7.0, 7.1, 7.2, 7.3, 7.4, or 7.5. In one aspect, a third threshold mayrange from 0.1 to 8.0, such as from 0.1 to 1.0, from 1.1 to 2.0, from2.1 to 3.0, from 3.1 to 4.0, from 4.1 to 5.0, from 5.1 to 6.0, from 6.1to 7.0, from 7.1 to 8.0, from 0.1 to 7.5, from 0.5 to 8.0, from 1.0 to7.0, from 1.5 to 6.5, from 2.0 to 6.0, from 3.0 to 5.5, from 3.5 to 5.0,or from 4.0 to 4.5. In an aspect, a third threshold can be scaled by afactor or a multiple based on the values provided herein. In one aspect,a third threshold can be the same as a second threshold. In an aspect, athird threshold can be greater than a second threshold. In one aspect, athird threshold can be less than a second threshold. In one aspect, athird threshold can be the same as a first threshold. In an aspect, athird threshold can be greater than a first threshold. In one aspect, athird threshold can be less than a first threshold.

In an aspect, a second delta value can be 0.1-99.5% of the thirdthreshold, such as 0.1-1%, 0.1-5%, 1-5%, 5-15%, 10-20%, 15-25%, 20-30%,25-35%, 30-40%, 35-45%, 40-50%, 0.1-25%, 15-35%, 25-50%, 25-75%, 45-55%,50-60%, 55-65%, 60-70%, 65-75%, 40-55%, 50-75%, 50-99.5%, 70-80%,75%-85%, 80-90%, 85-95%, 90-99.5%, 65-85%, or 75-99.5% of the thirdthreshold.

In one aspect, the present disclosure provides for, and includes, amethod of slowing the progression of pressure ulcer development in apatient in need thereof, the method comprising the steps of: identifyinga current intervention of level-K received by the patient, making aplurality of Sub-Epidermal Moisture (SEM) measurements in the patient,calculating a delta value from a portion of the plurality of SEMmeasurements, determining whether the delta value exceeds a firstthreshold, continuing to administer the current intervention if thedelta value does not exceed the first threshold, continuing to make aplurality of SEM measurements at a pre-determined frequencycorresponding to level-K if the delta value does not exceed the firstthreshold, administering a new intervention of level-N if the deltavalue exceeds the first threshold, where N has a value greater than K,and making a plurality of SEM measurements at a pre-determined frequencycorresponding to level-N if the delta value exceeds the first threshold.In an aspect, a patient in need thereof is a patient experiencing achange of care, a change in mobility, a change in nutrition, a change insensory perception, or a combination thereof. In one aspect, a patientin need thereof is a patient having developed an open ulcer. In anaspect, a patient in need thereof is a patient having recovered from anopen ulcer. In one aspect, a patient in need thereof is a patientreceiving surgery. In an aspect, a patient in need thereof is a patientreceiving spinal analgesics or sacral analgesics during a surgery. Inone aspect, a patient in need thereof is a patient receiving a surgeryfor a duration of four or more hours, such as five or more hours, six ormore hours, seven or more hours, eight or more hours, nine or morehours, ten or more hours, eleven or more hours, or twelve or more hours.In an aspect, a surgery has a duration of one or more hours, such as twoor more hours, or three or more hours.

In one aspect, a plurality of SEM measurements is taken at and aroundone or more anatomical sites selected from the group consisting of asternum, a sacrum, a heel, a scapula, an elbow, an ear, and other fleshytissues of a patient. In an aspect, a plurality of SEM measurements isseparated into sub-groups for analysis based on the general location atwhich a measurement is taken. In one aspect, a plurality of SEMmeasurements is taken at locations located on one or more concentriccircles centered around an anatomical site. In an aspect, a plurality ofSEM measurements is taken at locations located on a straight line atapproximately equidistance from an anatomical site.

In one aspect, a delta value is determined by the difference between themaximum SEM value and the minimum SEM value from the plurality of SEMmeasurements collected. In an aspect, a delta value is determined by thedifference between the maximum SEM average of measurements taken at onelocation and the minimum SEM average of measurements taken at a secondlocation. In one aspect, a delta value is determined for a portion of aplurality of SEM measurements made up of a sub-group as defined bylocation taken. In an aspect, an average SEM value at a location isobtained from two, three, four, five, six, seven, eight, nine, ten, ormore than ten SEM values measured at that location. In one aspect, adelta value is determined by the difference between SEM values derivedfrom measurements taken at two bisymmetric locations with respect to acenterline.

In an aspect, a delta value may be calculated from a plurality of SEMmeasurements made at a certain location, or in close proximity around aspecific location, in a plurality of methods. In an aspect, a pluralityof SEM measurements are made in a pre-determined pattern on the skin andthe delta value is calculated by subtracting the SEM value associatedwith a pre-determined position within the pattern from the largest SEMvalue made at the other positions in the pattern. In an aspect, aplurality of SEM measurements are made in a pre-determined pattern onthe skin and the delta value is calculated by identifying the SEM valueassociated with a pre-determined position within the pattern andsubtracting the largest SEM value made at the other positions in thepattern. In an aspect, an average SEM value may be calculated from aportion of a set of SEM values generated by a plurality of SEMmeasurements at a single location and a delta value calculated as thelargest difference between the average and a single SEM value of thesame set. In an aspect, a delta value may be calculated as a ratio ofthe largest SEM value to the smallest SEM value within a set of SEMvalues.

In an aspect, a first threshold may be about 0.3, 0.35, 0.4, 0.45, 0.5,0.55, 0.6, 0.65, 0.7, 0.75, 0.8, 0.85, 0.9, 0.95, 1.0, 1.1, 1.2, 1.3,1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2.0, 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, 2.7,2.8, 2.9, 3.0, 3.1, 3.2, 3.3, 3.4, 3.5, 3.6, 3.7, 3.8, 3.9, 4.0, 4.1,4.2, 4.3, 4.4, 4.5, 4.6, 4.7, 4.8, 4.9, 5.0, 5.1, 5.2, 5.3, 5.4, 5.5,5.6, 5.7, 5.8, 5.9, 6.0, 6.1, 6.2, 6.3, 6.4, 6.5, 6.6, 6.7, 6.8, 6.9,7.0, 7.1, 7.2, 7.3, 7.4, or 7.5. In one aspect, a first threshold mayrange from 0.1 to 8.0, such as from 0.1 to 1.0, from 1.1 to 2.0, from2.1 to 3.0, from 3.1 to 4.0, from 4.1 to 5.0, from 5.1 to 6.0, from 6.1to 7.0, from 7.1 to 8.0, from 0.1 to 7.5, from 0.5 to 8.0, from 1.0 to7.0, from 1.5 to 6.5, from 2.0 to 6.0, from 3.0 to 5.5, from 3.5 to 5.0,or from 4.0 to 4.5. In an aspect, a first threshold can be scaled by afactor or a multiple based on the values provided herein. It will beunderstood that a threshold is not limited by design, but rather, one ofordinary skill in the art would be capable of choosing a predeterminedvalue based on a given unit of SEM. In one aspect, thresholds of thepresent disclosure are varied according to the specific portion of apatient's body on which measurements are being made, or one or morecharacteristics of the patient such as age, height, weight, familyhistory, ethnic group, and other physical characteristics or medicalconditions.

In an aspect, K ranges from 2 to 50, such as from 2 to 3, from 2 to 4,from 2 to 5, from 2 to 6, from 2 to 7, from 2 to 8, from 2 to 9, from 2to 10, from 2 to 15, from 2 to 20, from 2 to 25, from 2 to 30, from 2 to35, from 2 to 40, or from 2 to 45.

In an aspect, K is determined by the amount by which the delta valueexceeds the threshold. In an aspect, the amount by which a delta valueexceeds a threshold established for (K+1) is greater than the amount bywhich a delta value exceeds a threshold established for K. In oneaspect, the amount by which a delta value exceeds a thresholdestablished for (K−1) is less than the amount by which a delta valueexceeds a threshold established for K.

In an aspect, a level-1 (K=1) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 100% ofthe threshold value, such as not more than 95%, not more than 90%, notmore than 85%, not more than 80%, not more than 75%, not more than 70%,not more than 65%, not more than 60%, not more than 55%, not more than50%, not more than 45%, not more than 40%, not more than 35%, not morethan 30%, not more than 25%, not more than 20%, not more than 15%, notmore than 10%, or not more than 5% of the threshold value.

In an aspect, a level-2 (K=2) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 150% ofthe threshold value, such as not more than 145%, not more than 140%, notmore than 135%, not more than 130%, not more than 125%, not more than120%, not more than 115%, not more than 110%, not more than 100%, notmore than 95%, not more than 90%, not more than 85%, not more than 80%,not more than 75%, not more than 70%, not more than 65%, not more than60%, not more than 55%, not more than 50%, not more than 45%, not morethan 40%, not more than 35%, not more than 30%, not more than 25%, notmore than 20%, not more than 15%, not more than 10%, or not more than 5%of the threshold value.

In one aspect, a level-3 (K=3) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 200% ofthe threshold value, such as not more than 195%, not more than 190%, notmore than 185%, not more than 180%, not more than 175%, not more than170%, not more than 165%, not more than 160%, not more than 155%, notmore than 150%, not more than 145%, not more than 140%, not more than135%, not more than 130%, not more than 125%, not more than 120%, notmore than 115%, not more than 110%, not more than 100%, not more than95%, not more than 90%, not more than 85%, not more than 80%, not morethan 75%, not more than 70%, not more than 65%, not more than 60%, notmore than 55%, not more than 50%, not more than 45%, not more than 40%,not more than 35%, not more than 30%, not more than 25%, not more than20%, not more than 15%, not more than 10%, or not more than 5% of thethreshold value.

In one aspect, a level-4 (K=4) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 250% ofthe threshold value, such as not more than 245%, not more than 240%, notmore than 235%, not more than 230%, not more than 225%, not more than220%, not more than 215%, not more than 210%, not more than 205%, notmore than 200%, not more than 195%, not more than 190%, not more than185%, not more than 180%, not more than 175%, not more than 170%, notmore than 165%, not more than 160%, not more than 155%, not more than150%, not more than 145%, not more than 140%, not more than 135%, notmore than 130%, not more than 125%, not more than 120%, not more than115%, not more than 110%, not more than 100%, not more than 95%, notmore than 90%, not more than 85%, not more than 80%, not more than 75%,not more than 70%, not more than 65%, not more than 60%, not more than55%, not more than 50%, not more than 45%, not more than 40%, not morethan 35%, not more than 30%, not more than 25%, not more than 20%, notmore than 15%, not more than 10%, or not more than 5% of the thresholdvalue.

In one aspect, a level-5 (K=5) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 300% ofthe threshold value, such as not more than 295%, not more than 290%, notmore than 285%, not more than 280%, not more than 275%, not more than270%, not more than 265%, not more than 260%, not more than 255%, notmore than 250%, not more than 245%, not more than 240%, not more than235%, not more than 230%, not more than 225%, not more than 220%, notmore than 215%, not more than 210%, not more than 205%, not more than200%, not more than 195%, not more than 190%, not more than 185%, notmore than 180%, not more than 175%, not more than 170%, not more than165%, not more than 160%, not more than 155%, not more than 150%, notmore than 145%, not more than 140%, not more than 135%, not more than130%, not more than 125%, not more than 120%, not more than 115%, notmore than 110%, not more than 100%, not more than 95%, not more than90%, not more than 85%, not more than 80%, not more than 75%, not morethan 70%, not more than 65%, not more than 60%, not more than 55%, notmore than 50%, not more than 45%, not more than 40%, not more than 35%,not more than 30%, not more than 25%, not more than 20%, not more than15%, not more than 10%, or not more than 5% of the threshold value.

In one aspect, a level-6 (K=6) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 350% ofthe threshold value, such as not more than 345%, not more than 340%, notmore than 335%, not more than 330%, not more than 325%, not more than320%, not more than 315%, not more than 310%, not more than 305%, notmore than 300%, not more than 295%, not more than 290%, not more than285%, not more than 280%, not more than 275%, not more than 270%, notmore than 265%, not more than 260%, not more than 255%, not more than250%, not more than 245%, not more than 240%, not more than 235%, notmore than 230%, not more than 225%, not more than 220%, not more than215%, not more than 210%, not more than 205%, not more than 200%, notmore than 195%, not more than 190%, not more than 185%, not more than180%, not more than 175%, not more than 170%, not more than 165%, notmore than 160%, not more than 155%, not more than 150%, not more than145%, not more than 140%, not more than 135%, not more than 130%, notmore than 125%, not more than 120%, not more than 115%, not more than110%, not more than 100%, not more than 95%, not more than 90%, not morethan 85%, not more than 80%, not more than 75%, not more than 70%, notmore than 65%, not more than 60%, not more than 55%, not more than 50%,not more than 45%, not more than 40%, not more than 35%, not more than30%, not more than 25%, not more than 20%, not more than 15%, not morethan 10%, or not more than 5% of the threshold value.

In one aspect, a level-7 (K=7) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 400% ofthe threshold value, such as not more than 395%, not more than 390%, notmore than 385%, not more than 380%, not more than 375%, not more than370%, not more than 365%, not more than 360%, not more than 355%, notmore than 350%, not more than 345%, not more than 340%, not more than335%, not more than 330%, not more than 325%, not more than 320%, notmore than 315%, not more than 310%, not more than 305%, not more than300%, not more than 295%, not more than 290%, not more than 285%, notmore than 280%, not more than 275%, not more than 270%, not more than265%, not more than 260%, not more than 255%, not more than 250%, notmore than 245%, not more than 240%, not more than 235%, not more than230%, not more than 225%, not more than 220%, not more than 215%, notmore than 210%, not more than 205%, not more than 200%, not more than195%, not more than 190%, not more than 185%, not more than 180%, notmore than 175%, not more than 170%, not more than 165%, not more than160%, not more than 155%, not more than 150%, not more than 145%, notmore than 140%, not more than 135%, not more than 130%, not more than125%, not more than 120%, not more than 115%, not more than 110%, notmore than 100%, not more than 95%, not more than 90%, not more than 85%,not more than 80%, not more than 75%, not more than 70%, not more than65%, not more than 60%, not more than 55%, not more than 50%, not morethan 45%, not more than 40%, not more than 35%, not more than 30%, notmore than 25%, not more than 20%, not more than 15%, not more than 10%,or not more than 5% of the threshold value.

In one aspect, a level-8 (K=8) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 450% ofthe threshold value, such as not more than 445%, not more than 440%, notmore than 435%, not more than 430%, not more than 425%, not more than420%, not more than 415%, not more than 410%, not more than 405%, notmore than 400%, not more than 395%, not more than 390%, not more than385%, not more than 380%, not more than 375%, not more than 370%, notmore than 365%, not more than 360%, not more than 355%, not more than350%, not more than 345%, not more than 340%, not more than 335%, notmore than 330%, not more than 325%, not more than 320%, not more than315%, not more than 310%, not more than 305%, not more than 300%, notmore than 295%, not more than 290%, not more than 285%, not more than280%, not more than 275%, not more than 270%, not more than 265%, notmore than 260%, not more than 255%, not more than 250%, not more than245%, not more than 240%, not more than 235%, not more than 230%, notmore than 225%, not more than 220%, not more than 215%, not more than210%, not more than 205%, not more than 200%, not more than 195%, notmore than 190%, not more than 185%, not more than 180%, not more than175%, not more than 170%, not more than 165%, not more than 160%, notmore than 155%, not more than 150%, not more than 145%, not more than140%, not more than 135%, not more than 130%, not more than 125%, notmore than 120%, not more than 115%, not more than 110%, not more than100%, not more than 95%, not more than 90%, not more than 85%, not morethan 80%, not more than 75%, not more than 70%, not more than 65%, notmore than 60%, not more than 55%, not more than 50%, not more than 45%,not more than 40%, not more than 35%, not more than 30%, not more than25%, not more than 20%, not more than 15%, not more than 10%, or notmore than 5% of the threshold value.

In one aspect, a level-9 (K=9) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 500% ofthe threshold value, such as not more than 495%, not more than 490%, notmore than 485%, not more than 480%, not more than 475%, not more than470%, not more than 465%, not more than 460%, not more than 455%, notmore than 450%, not more than 445%, not more than 440%, not more than435%, not more than 430%, not more than 425%, not more than 420%, notmore than 415%, not more than 410%, not more than 405%, not more than400%, not more than 395%, not more than 390%, not more than 385%, notmore than 380%, not more than 375%, not more than 370%, not more than365%, not more than 360%, not more than 355%, not more than 350%, notmore than 345%, not more than 340%, not more than 335%, not more than330%, not more than 325%, not more than 320%, not more than 315%, notmore than 310%, not more than 305%, not more than 300%, not more than295%, not more than 290%, not more than 285%, not more than 280%, notmore than 275%, not more than 270%, not more than 265%, not more than260%, not more than 255%, not more than 250%, not more than 245%, notmore than 240%, not more than 235%, not more than 230%, not more than225%, not more than 220%, not more than 215%, not more than 210%, notmore than 205%, not more than 200%, not more than 195%, not more than190%, not more than 185%, not more than 180%, not more than 175%, notmore than 170%, not more than 165%, not more than 160%, not more than155%, not more than 150%, not more than 145%, not more than 140%, notmore than 135%, not more than 130%, not more than 125%, not more than120%, not more than 115%, not more than 110%, not more than 100%, notmore than 95%, not more than 90%, not more than 85%, not more than 80%,not more than 75%, not more than 70%, not more than 65%, not more than60%, not more than 55%, not more than 50%, not more than 45%, not morethan 40%, not more than 35%, not more than 30%, not more than 25%, notmore than 20%, not more than 15%, not more than 10%, or not more than 5%of the threshold value.

In one aspect, a level-10 (K=10) intervention is applied to a patienthaving a delta value exceeding the threshold by not more than 550% ofthe threshold value, such as not more than 545%, not more than 540%, notmore than 535%, not more than 530%, not more than 525%, not more than520%, not more than 515%, not more than 510%, not more than 505%, notmore than 500%, not more than 495%, not more than 490%, not more than485%, not more than 480%, not more than 475%, not more than 470%, notmore than 465%, not more than 460%, not more than 455%, not more than450%, not more than 445%, not more than 440%, not more than 435%, notmore than 430%, not more than 425%, not more than 420%, not more than415%, not more than 410%, not more than 405%, not more than 400%, notmore than 395%, not more than 390%, not more than 385%, not more than380%, not more than 375%, not more than 370%, not more than 365%, notmore than 360%, not more than 355%, not more than 350%, not more than345%, not more than 340%, not more than 335%, not more than 330%, notmore than 325%, not more than 320%, not more than 315%, not more than310%, not more than 305%, not more than 300%, not more than 295%, notmore than 290%, not more than 285%, not more than 280%, not more than275%, not more than 270%, not more than 265%, not more than 260%, notmore than 255%, not more than 250%, not more than 245%, not more than240%, not more than 235%, not more than 230%, not more than 225%, notmore than 220%, not more than 215%, not more than 210%, not more than205%, not more than 200%, not more than 195%, not more than 190%, notmore than 185%, not more than 180%, not more than 175%, not more than170%, not more than 165%, not more than 160%, not more than 155%, notmore than 150%, not more than 145%, not more than 140%, not more than135%, not more than 130%, not more than 125%, not more than 120%, notmore than 115%, not more than 110%, not more than 100%, not more than95%, not more than 90%, not more than 85%, not more than 80%, not morethan 75%, not more than 70%, not more than 65%, not more than 60%, notmore than 55%, not more than 50%, not more than 45%, not more than 40%,not more than 35%, not more than 30%, not more than 25%, not more than20%, not more than 15%, not more than 10%, or not more than 5% of thethreshold value.

In an aspect, the present disclosure further provides for, and includes,determining whether the delta value is less than a second threshold,administering a level-L intervention if the delta value is less than thesecond threshold, where L has a non-negative value less than K, andmaking a plurality of SEM measurements at a pre-determined frequencycorresponding to level-L if the delta value is less than the secondthreshold.

In an aspect, a second threshold may be about 0.3, 0.35, 0.4, 0.45, 0.5,0.55, 0.6, 0.65, 0.7, 0.75, 0.8, 0.85, 0.9, 0.95, 1.0, 1.1, 1.2, 1.3,1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2.0, 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, 2.7,2.8, 2.9, 3.0, 3.1, 3.2, 3.3, 3.4, 3.5, 3.6, 3.7, 3.8, 3.9, 4.0, 4.1,4.2, 4.3, 4.4, 4.5, 4.6, 4.7, 4.8, 4.9, 5.0, 5.1, 5.2, 5.3, 5.4, 5.5,5.6, 5.7, 5.8, 5.9, 6.0, 6.1, 6.2, 6.3, 6.4, 6.5, 6.6, 6.7, 6.8, 6.9,7.0, 7.1, 7.2, 7.3, 7.4, or 7.5. In one aspect, a second threshold mayrange from 0.1 to 8.0, such as from 0.1 to 1.0, from 1.1 to 2.0, from2.1 to 3.0, from 3.1 to 4.0, from 4.1 to 5.0, from 5.1 to 6.0, from 6.1to 7.0, from 7.1 to 8.0, from 0.1 to 7.5, from 0.5 to 8.0, from 1.0 to7.0, from 1.5 to 6.5, from 2.0 to 6.0, from 3.0 to 5.5, from 3.5 to 5.0,or from 4.0 to 4.5. In an aspect, a second threshold can be scaled by afactor or a multiple based on the values provided herein. In one aspect,a second threshold can be the same as a first threshold. In an aspect, asecond threshold can be greater than a first threshold. In one aspect, asecond threshold can be less than a first threshold.

In an aspect, L can be K−1, K−2, K−3, K−4, K−5, K−6, K−7, K−8, K−9, orK−10. In one aspect, L is K−1 if a delta value is 90-99.5% of the secondthreshold, such as 90-95%, 91-96%, 92-97%, 93-98%, 94-99%, or 95-99.5%of the second threshold, unless K−1 is less than 0, in which case Lwould be 0. In an aspect, L is K−2 if a delta value is 80-89.9% of thesecond threshold, such as 80-85%, 81-86%, 82-87%, 83-88%, 84-89%, or85-89.9% of the second threshold, unless K−2 is less than 0, in whichcase L would be 0. In one aspect, L is K−3 if a delta value is 70-79.9%of the second threshold, such as 70-75%, 71-76%, 72-77%, 73-78%, 74-79%,or 75-79.9% of the second threshold, unless K−3 is less than 0, in whichcase L would be 0. In an aspect, L is K−4 if a delta value is 60-69.9%of the second threshold, such as 60-65%, 61-66%, 62-67%, 63-68%, 64-69%,or 65-69.9% of the second threshold, unless K−4 is less than 0, in whichcase L would be 0. In one aspect, L is K−5 if a delta value is 50-59.9%of the second threshold, such as 50-55%, 51-56%, 52-57%, 53-58%, 54-59%,or 55-59.9% of the second threshold, unless K−5 is less than 0, in whichcase L would be 0. In an aspect, L is K−6 if a delta value is 40-49.9%of the second threshold, such as 40-45%, 41-46%, 42-47%, 43-48%, 44-49%,or 45-49.9% of the second threshold, unless K−6 is less than 0, in whichcase L would be 0. In one aspect, L is K−7 if a delta value is 30-39.9%of the second threshold, such as 30-35%, 31-36%, 32-37%, 33-38%, 34-39%,or 35-39.9% of the second threshold, unless K−7 is less than 0, in whichcase L would be 0. In an aspect, L is K−8 if a delta value is 20-29.9%of the second threshold, such as 20-25%, 21-26%, 22-27%, 23-28%, 24-29%,or 25-29.9% of the second threshold, unless K−8 is less than 0, in whichcase L would be 0. In one aspect, L is K−9 if a delta value is 10-19.9%of the second threshold, such as 10-15%, 11-16%, 12-17%, 13-18%, 14-19%,or 15-19.9% of the second threshold, unless K−9 is less than 0, in whichcase L would be 0. In an aspect, L is K−10 if a delta value is 0.1-9.9%of the second threshold, such as 0.1-5%, 1-6%, 2-7%, 3-8%, 4-9%, or5-9.9% of the second threshold, unless K−10 is less than 0, in whichcase L would be 0.

In an aspect, the present disclosure provides for, and includes, amethod of stratifying groups of patients in a care facility based onpressure ulcer risk, the method comprising the steps of: making aplurality of Sub-Epidermal Moisture (SEM) measurements in each of thepatients, calculating a delta value from a portion of the plurality ofSEM measurements for each of the patients, determining whether eachdelta value exceeds any values in a set of threshold valuescorresponding to N care levels and assigning a care level to each of thepatients, rearranging the group of patients based on each of thepatient's assigned care levels.

In one aspect, the present disclosure provides for, and includes, amethod of reducing incidence of pressure ulcer in patients admitted to acare facility, the method comprising the steps of: evaluating a patientfor a risk of pressure ulcer upon admission to the care facility, wherethe evaluating step comprises making a first plurality of Sub-EpidermalMoisture (SEM) measurements in the patient, calculating a first deltavalue from a portion of the first plurality of SEM measurements,determining whether the first delta value exceeds a first threshold,administering a first intervention of level-0 if the first delta valuedoes not exceed the first threshold, and administering a firstintervention of level-N if the first delta value exceeds the firstthreshold, where N is an integer and N has a value of 1 or greater. Inan aspect, the incidence of ulcers in patients in the care facility isreduced to less than 1 in 100, less than 1 in 200, less than 1 in 300,less than 1 in 400, less than 1 in 500, less than 1 in 600, less than 1in 700, less than 1 in 800, less than 1 in 900, or less than 1 in 1000.

In an aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of application of abarrier cream to the patient's heel, the method comprising the steps of:making a plurality of Sub-Epidermal Moisture (SEM) measurements at thepatient's heel, calculating a delta value from a portion of theplurality of SEM measurements, determining whether the delta valueexceeds a threshold corresponding to level N, where N is greater than orequal to 2, administering a barrier cream to the patient's heel if thedelta value exceeds the threshold, and making a plurality of SEMmeasurements every two hours if the delta value exceeds the threshold.In an aspect, a plurality of SEM measurements are made at least onceevery hour or at least once every half an hour if the delta valueexceeds the threshold.

In one aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of application of aneuro-muscular stimulation to the patient's heel, the method comprisingthe steps of: making a plurality of Sub-Epidermal Moisture (SEM)measurements at the patient's heel, calculating a delta value from aportion of the plurality of SEM measurements, determining whether thedelta value exceeds a threshold corresponding to level N, where N isgreater than or equal to 2, administering a neuro-muscular stimulationto the patient's heel if the delta value exceeds the threshold, andmaking a plurality of SEM measurements every hour if the delta valueexceeds the threshold. In an aspect, a plurality of SEM measurements aremade at least once every half an hour if the delta value exceeds thethreshold.

In an aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of application of atopical cream to the patient's heel, the method comprising the steps of:making a plurality of Sub-Epidermal Moisture (SEM) measurements at thepatient's heel, calculating a delta value from a portion of theplurality of SEM measurements, determining whether the delta valueexceeds a threshold corresponding to level N, where N is greater than orequal to 2, administering a topical cream to the patient's heel if thedelta value exceeds the threshold, and making a plurality of SEMmeasurements every half an hour if the delta value exceeds thethreshold.

In one aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of application of abarrier cream to the patient's sacrum, the method comprising the stepsof: making a plurality of Sub-Epidermal Moisture (SEM) measurements atthe patient's sacrum, calculating a delta value from a portion of theplurality of SEM measurements, determining whether the delta valueexceeds a threshold corresponding to level N, where N is greater than orequal to 2, administering a barrier cream to the patient's sacrum if thedelta value exceeds the threshold, and making a plurality of SEMmeasurements every six hours if the delta value exceeds the threshold.In an aspect, a plurality of SEM measurements are made at least onceevery four hours, at least once every three hours, at least once everytwo hours, at least once an hour, or at least once every half an hour ifthe delta value exceeds the threshold.

In an aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of application of aneuro-muscular stimulation to the patient's sacrum, the methodcomprising the steps of: making a plurality of Sub-Epidermal Moisture(SEM) measurements at the patient's sacrum, calculating a delta valuefrom a portion of the plurality of SEM measurements, determining whetherthe delta value exceeds a threshold corresponding to level N, where N isgreater than or equal to 2, administering a neuro-muscular stimulationto the patient's sacrum if the delta value exceeds the threshold, andmaking a plurality of SEM measurements every four hours if the deltavalue exceeds the threshold. In an aspect, a plurality of SEMmeasurements are made at least once every three hours, at least onceevery two hours, at least once an hour, or at least once every half anhour if the delta value exceeds the threshold.

In one aspect, the present disclosure provides for, and includes, amethod of identifying and treating a patient in need of application of atopical cream to the patient's sacrum, the method comprising the stepsof: making a plurality of Sub-Epidermal Moisture (SEM) measurements atthe patient's sacrum, calculating a delta value from a portion of theplurality of SEM measurements, determining whether the delta valueexceeds a threshold corresponding to level N, where N is greater than orequal to 2, administering a topical cream to the patient's sacrum if thedelta value exceeds the threshold, and making a plurality of SEMmeasurements every two hours if the delta value exceeds the threshold.In an aspect, a plurality of SEM measurements are made at least once anhour or at least once every half an hour if the delta value exceeds thethreshold.

In an aspect, methods of the present disclosure are performed using thedevices disclosed in U.S. application Ser. Nos. 14/827,375 and15/134,110. In one aspect, the moisture content is equivalent to the SEMvalue on a predetermined scale. In an aspect, a predetermined scale mayrange from 0 to 20, such as from 0 to 1, from 0 to 2, from 0 to 3, from0 to 4, from 0 to 5, from 0 to 6, from 0 to 7, from 0 to 8, from 0 to 9,from 0 to 10, from 0 to 11, from 0 to 12, from 0 to 13, from 0 to 14,from 0 to 15, from 0 to 16, from 0 to 17, from 0 to 18, from 0 to 19. Inone aspect, a predetermined scale can be scaled by a factor or amultiple based on the values provided herein.

In an aspect, the present disclosure further provides for, and includes,providing targeted treatment to an anatomical location of a patientidentified as being damaged by a combination of a visual assessment andSEM scan measurements. In one aspect, a targeted treatment is providedto a common site for pressure ulcers selected from the group consistingof: toes, heels, a sacrum, a spine, elbows, shoulder blades, occiput,and ischial tuberosity. In an aspect, a targeted treatment isconcurrently provided to a second common site for pressure ulcersselected from the group consisting of: toes, heels, a sacrum, a spine,elbows, shoulder blades, occiput, and ischial tuberosity. In one aspect,a first site receiving a targeted treatment is known to cause adevelopment of pressure ulcer at a second site.

The present disclosure is illustrated by the following examples. Theexamples set out herein illustrate several aspects of the presentdisclosure but should not be construed as limiting the scope of thepresent disclosure in any manner.

EXAMPLES Example 1: Intervention Levels for Treating Pressure Ulcers inthe Heel

Subjects identified as being at risk for pressure ulcers in the heelwere treated in accordance with the following scheme:

TABLE 1 EXAMPLE INTERVENTION SCHEME FOR TREATING PRESSURE ULCER IN THEHEEL Frequency of Subsequent Corresponding Risk SEM Measurement SEMdelta Level Intervention Monitoring Ranges 0 provide good nutrition,every 24 hours SEM delta ≤ standard mattress, and/ threshold or turnevery 24 hours 1 provide a heel boot every 10 hours threshold < SEMdelta ≤ 105% threshold 2 change of support at the beginning 105%threshold < surface of each nursing SEM delta ≤ shift 110% threshold 3apply dressing to back every 12 hours 110% threshold < or sides of heelSEM delta ≤ 115% threshold 4 change to low-friction every 8 hours 115%threshold < sheet cover SEM delta ≤ 120% threshold 5 provide alow-friction every 6 hours 120% threshold < padded mattress surface SEMdelta ≤ for lower leg 125% threshold 6 turn patient at a every 4 hours125% threshold < shorter interval SEM delta ≤ 130% threshold 7 applybarrier cream every 2 hours 130% threshold < SEM delta ≤ 135% threshold8 apply neuro-muscular every 1 hour 135% threshold < stimulation SEMdelta ≤ 145% threshold 9 apply topical cream to every 30 minutes 145%threshold < enhance perfusion SEM delta ≤ 150% threshold 10 providesilicone pad every 15 minutes 150% threshold < for lower leg SEM delta

Example 2: Intervention Levels for Treating Pressure Ulcers in theSacrum

Subjects identified as being at risk for pressure ulcers in the sacrumwere treated in accordance with the following scheme:

TABLE 2 EXAMPLE INTERVENTION SCHEME FOR TREATING PRESSURE ULCER IN THESACRUM Frequency of Subsequent Corresponding Risk SEM Measurement SEMdelta Level Intervention Monitoring Ranges 0 provide good nutrition,every 24 hours SEM delta ≤ standard mattress, and/ threshold or turnevery 24 hours 1 reposition patient with every 10 hours threshold <wedge and/or keep SEM delta ≤ sacrum dry 110% threshold 2 changemattress to at the beginning 110% threshold < pressure-alleviating ofeach nursing SEM delta ≤ mattresses shift 120% threshold 3 applydressing over every 12 hours 120% threshold < sacrum SEM delta ≤ 130%threshold 4 change to dynamic every 8 hours 130% threshold < mattressSEM delta ≤ 140% threshold 5 apply barrier cream every 6 hours 140%threshold < SEM delta ≤ 150% threshold 6 apply neuro-muscular every 4hours 150% threshold < stimulation SEM delta ≤ 160% threshold 7 applytopical cream to every 2 hours 160% threshold < enhance perfusion SEMdelta ≤ 170% threshold 8 provide silicone pad every 1 hour 170%threshold < under the patient's SEM delta ≤ body 180% threshold

Example 3: Identifying a Patient in Need of a Level-0 Intervention atSacrum

A patient was subjected to multiple SEM measurements at and around theboney prominence of the sacrum using an apparatus capable of measuringSEM measurements. Prior to performing the measurements, surface moistureand matter above the patient's skin surface were removed. An electrodeof the apparatus was applied to the patient's skin with sufficientpressure to ensure complete contact for approximately one second toobtain each SEM measurement.

SEM measurements were taken on a straight line across the sacrum of apatient. Multiple measurements were taken at a given measurementlocation. FIG. 2A is a sample visual assessment of healthy tissue. FIG.2B is a corresponding plot of the averages of SEM measurements taken ateach location. A threshold of 0.5 was chosen. A delta value wascalculated as the difference between the maximum average SEM value andthe minimum average SEM value, which was determined to be less than 0.5.Because the SEM delta value was below the threshold value, the patientwas identified to be in need of a level-0 intervention. Accordingly, thepatient was placed on a standard mattress, and was turned every 24hours.

Additional SEM measurements were taken every 24 hours until discharge.There was no change in the intervention level.

Example 4: Identifying a Patient in Need of a Level-n Intervention atSacrum

A patient was subjected to multiple SEM measurements taken on a straightline across the sacrum in accordance with the same procedure asdescribed in Example 3.

FIG. 3A is a sample visual assessment of damaged tissue. FIG. 3B is acorresponding plot of the averages of SEM measurements taken at eachlocation. A threshold of 0.5 was chosen. A delta value was calculated asthe difference between the maximum average SEM value and the minimumaverage SEM value, which was determined to be above 0.5. Because the SEMdelta value was more than 200% over the threshold value, the patient wasidentified to be in need of a level-8 intervention. Accordingly, thepatient was placed on a silicone pad and monitored on an hourly basisuntil a SEM delta value of less than 170% of the threshold value wasobserved, at which point, the patient was switched to a level-7intervention.

Example 5: Example Process for Selecting a Level of Intervention andMonitoring

FIG. 4 is an illustration of a process 400 for selecting a level ofintervention and monitoring based on the amount by which a delta valuederived from SEM measurements exceeds a threshold value. Here, acaregiver took a plurality of SEM measurements at a location on the skinof a patient using a SEM Scanner in step 402, where each measurementgenerated a SEM value. Using a portion of these SEM values, a deltavalue “A” was calculated in step 404. The delta value was calculated bysubtracting the smallest SEM value from the largest SEM value generatedfrom the plurality of SEM measurements.

The calculated delta value was compared to a threshold value “T” in step406. If the delta value was less than or equal to the threshold value,step 408 was executed and the caregiver waited until the monitoringinterval associated with the current level of care transpires, thenrepeated the SEM measurements in step 402. If the delta value wasgreater than the threshold value, the amount by which the delta valueexceeded the threshold value was compared to a cascading series ofdifference values.

In some instances, the delta value was positive and the comparisonexecuted by subtracting the threshold value from the delta value, whichproduced a positive difference, and then a determination was maderegarding whether the difference exceeded the first difference D1 instep 410. If the difference was less than D1, the process branched tostep 412 and then step 414 to implement an intervention and measurementinterval, respectively, associated with level-N+1. In this example, Nhad a value of zero or greater.

In some instances, the delta value was negative, for example if the SEMmeasurement at the center position of the data in FIG. 3B is subtractedfrom an average of the SEM values from the leftmost and rightmostlocations in FIG. 3B. In that case, the differences D1, D2 through Dnwas selected to have negative values that could have different absolutevalues than the corresponding difference values D1, D2 through Dn usedfor a positive delta value. Alternatively, the comparisons in steps 410,420, and 430 were changed to “≤” in place of the “≥” shown in FIG. 4.

Example 6: Workflow Guidance Matrix

FIG. 5 is an example of a workflow guidance matrix 500 where the currentlevel of intervention 502 and the new delta value 504 are used to selectthe new level of intervention 506. Here, a caregiver monitored thecondition of a patient by periodically taking a plurality of SEMmeasurements at one or more locations on the patient's skin. At the timeof these measurements, the patient received care associated with a levelof intervention and monitoring. In this example, level-0 (zero) wasassociated with a patient who was not considered to be at significantrisk for development of a pressure ulcer. Higher levels of interventionand monitoring were identified with the gradations of interventionranked, for example, according to cost, difficulty to implement, orother parameter identified by the care facility. When a caregiver wasmaking a new set of SEM measurements, they consulted this matrix byidentifying the row of the current level of intervention 502, the deltavalue determined from the latest set of SEM measurements 504, andidentified the level of intervention in the cell 506 at the intersectionof the row 502 and column 504. The caregiver could consider theidentified level of intervention as well as the current level ofintervention and the value of the delta in selecting a level ofintervention for the next time period.

In some instances, the values of the new levels of intervention in thecells 506 were similar from row to row. In some instances, the values ofthe new levels of intervention in adjacent cells 506 differed by asingle level or by more than one level. In some instances, the values ofthe new levels of intervention in adjacent cells 506 were the same inadjacent cells.

Example 7: Progression of Tissue Condition Leading to Pressure Ulcer

FIGS. 6A, 6B, and 6C depict an illustrative non-limiting example of aprogression over time of the tissue condition leading to a pressureulcer. FIG. 6A depicts a cross-section of healthy tissue 600, includingthe stratum corneum 602 and healthy cells 604 in the epidermis/dermis.The center electrode 606 and the toroidal electrode 608 of a SEM scannerare shown in cross-section in contact with the stratum corneum 602. Anillustrative indication of the sensitive region of the SEM Scanner isshown as the oval region 610. The region 610 has a depth of sensitivity.In some instances, the depth of sensitivity is in the range of 0.14 0.16inches. In some instances, the depth of sensitivity is less than 0.16inches.

FIG. 6B is an illustrative cross-section of slightly damaged tissue 620.Cellular damage, for example resulting from long-term application oflow-level pressure has affected the tissue. Without being limited bytheory, some of the cells 622 have ruptured, releasing the fluidcontents into an intercellular space 624. Alternatively, and withoutbeing limited by theory, an inflammatory reaction has caused fluid tomigrate into the intercellular space 624. This damage is not visible onthe skin surface.

FIG. 6C is an illustrative cross-section 640 of a more advanced level ofdamage. Without being limited by theory, the tissue is now mostlyruptured cells 622, which can provide little mechanical structure tocarry the continued applied pressure. The tissue thickness is reduced,with the bone 642 now closer to the skin surface. The ruptured cells 622and intercellular space 624 are compressed, expelling the fluid 644 outof the local tissue as indicated by arrows 646.

FIG. 6D shows an illustrative plot 660 of a delta value for a singlepatient at a single location where a pressure ulcer develops. The SEMvalues were measured by a SEM scanner. A delta value was generated fromsets of SEM measurements taken at incremental times. Point 672 was ameasurement at time=zero where all the SEM values had a baseline valueassociated with healthy tissue and the delta value is zero. At time t1,another set of SEM measurements was made and the associated delta valuewas indicated at point 674. This delta value was below the threshold 662and, therefore, there was no indication of significant sub-surfacedamage.

At time t2, the damage progressed and the delta value 676 was greaterthan the threshold 662, indicating that there was significant damage.This damage was still not visible on the skin. Nonetheless, a deltavalue greater than the threshold 662 indicated that there was cellulardamage at a depth less than the sensitive depth of the SEM scanner.

At time t3, the damage continued but the amount of fluid in theintercellular space was decreased due to mechanical expulsion asillustrated in FIG. 6C. This reduced the SEM value taken over thedamaged area, which reduced the computed delta value 678 since the SEMvalue of the healthy tissue remained much the same as during previousmeasurements.

At time t4, the damage progressed to the point where it was visible onthe skin surface, as shown in FIG. 3A. In some instances, time t4 mayoccur before one or both of t2 and t3. In some instances, time t4 mayoccur after the delta value has reached zero again along curve 670 aftertime t3 and before t5. Arrow 665 indicates that after time t4, thedamage remained visible. In some instances, the tissue may be consideredto be a “stage 1” pressure ulcer after time t4.

At time t5, the damage progressed to the point where sufficient fluidhad been expelled from the local tissue that the SEM value of ameasurement made over the damaged area was lower than the SEM value ofhealthy tissue. This resulted in the delta value 680 being negative, asshown in FIG. 3B. In some instances, the negative delta would indicatethat the tissue is seriously damaged. In some instances, the negativedelta would indicate that a portion of the tissue at the location of thelowest SEM value is necrotic.

Example 8: Method of Mapping an Area of Possible Damage I

FIG. 7A is an example of a method of mapping an area of possible damage.The area of damage 700 was surrounded by healthy tissue 708. The centerarea 730 was significantly damaged. The first surrounding area 720 wasless damaged, and the second surrounding area 710 was less damaged butstill not healthy tissue. The skin over all of these areas had the sameappearance and texture, with no indication of the subsurface damage. Theseries of dashed-line circles 740, 742, 744, 746, 748, and 750 indicatean example set of location where SEM measurements were taken. SEMmeasurements taken at locations 740, 742, and 750 generally produced aSEM value associated with healthy tissue, identified within this exampleas “H.” SEM measurements taken at locations 744 and 748 generallyproduced a SEM value “J” that is slightly higher than H. A SEMmeasurement taken at location 746 generally produced a SEM value “P”that is greater than J. All of these measurements were considered to betaken at a single “location” on the patient's body, for example thesacrum, even though the individual locations were spatially dispersedover this location. For this set of SEM values, the delta was thedifference between the highest SEM value, which likely occurred atlocation 746, and the lowest SEM value, which likely occurred at one oflocations 740, 742, and 750, within this set. If the delta was greaterthan a threshold value “T,” this was an indication that there issignificant damage at this location. The exact location of the greatestdamage was likely to be proximate to the measurement location 746 wherethe greatest SEM value was produced.

Example 9: Method of Mapping an Area of Possible Damage II

FIG. 7B depicts a second example of mapping an area of possible damage.In this example, the approximate location of the greatest damage wasknown, for example from prior application of the method illustrated inFIG. 7A. The intent of this method was to map the boundary between area710 and area 720 to determine the extent of the damage. For simplicity,the SEM values produced by measurements in each area were the same andthe SEM values increased from area 710 to area 720 and then to area 730.The first SEM measurement was taken at location 760, which was known tobe the approximate location of the greatest damage. Subsequentmeasurements were taken at locations 762, 764, 766, and 768 in the orderindicated by path 780. The SEM value produced at location 764 wasslightly higher than the SEM values produced at locations 762 and 766,indicating that location 764 was partially within the area 720 whilelocations 762 and 766 were fully within the lesser-damaged area 710. Theboundary could be approximated by interpolating between the variousmeasurement locations. For example, the SEM value produced at location770 was high enough to suggest that it is fully within the area 720 andtherefore did not help identify the boundary between areas 710 and 720.The subsequent location 772 was therefore directly away from thestarting location 760. As location 760, in this example, was now fullywithin area 710, the boundary between areas 710 and 720 could beinterpolated to be between locations 770 and 772. The SEM value producedfrom a measurement at location 774 was similar to the SEM value fromlocation 770 and it could be sufficient to identify the boundary asoutside the location 774 without taking another measurement at alocation corresponding to location 772.

This set of measurements enabled the creation of a map of a certainlevel of damage, for example the area 720. Repeating this mappingprocess at regular time intervals would provide an indication of whetherthe area 720 is growing, which may indicate that an increased level ofintervention is appropriate, or shrinking, which may indicate that thecurrent level of intervention is allowing the damage to heal.

Example 10: Treatment Decision Pathway for Stratifying Patients andProviding Appropriate Treatments

FIG. 8A outlines a currently recommended treatment decision pathway forpreventing pressure ulcers in hospital patients as presented by TheNational Institute for Health and Care Excellence (NICE) in theirclinical guideline Pressure ulcers: prevention and management, published23 Apr. 2014. The guidelines recommend that a risk analysis be performedfor every patient admitted to a care facility that exhibits one or morerisk factors such as significantly limited mobility, a significant lossof sensation, a previous or current pressure ulcer, a nutritionaldeficiency, an inability to reposition themselves, or a significantcognitive impairment. Risk assessment is commonly done using a scoredchecklist, such as the Braden Scale, that assesses the severity ofspecific risk factors.

Upon completion of the risk assessment, the patient is identified as (i)having a low risk of developing a pressure ulcer, (ii) being at risk ofdeveloping a pressure ulcer, or (iii) being at high risk of developing apressure ulcer. Depending on the level of risk the patient is classifiedas having, the patient undergoes different sequences of treatment andevaluation by visual assessment.

All patients are potentially at risk of developing a pressure ulcer.They are more likely to occur in people who are seriously ill or have aneurological condition, impaired mobility, impaired nutrition, poorposture, or a deformity.

Pressure ulcers are categorized as stage-1 through stage-4, with stage-1being the lowest condition. The National Pressure Ulcer Advisory Panel(NPUAP) has defined a “stage-1” ulcer as intact skin with a localizedarea of non-blanchable erythema, where “blanchable” indicates that thetissue loses all redness when pressed and “non-blanchable” tissueremains red when pressed due to the presence of red blood cells outsideof blood vessels (extravasation). In some patients, blanchable erythemaor changes in sensation, temperature, or firmness may precede visualchanges.

Visual skin assessment (VSA) is the current method of identifying apressure ulcer. A trained healthcare professional assesses theappearance of the skin, visually and tactilely, looking for redness orvariations in tissue firmness, tissue temperature, or moisture.

If a patient is identified as having a low risk of developing a pressureulcer, the patient is simply monitored for a change in clinical statussuch as undergoing surgery, worsening of an underlying condition, or achange in mobility. A patient who uses a wheelchair or sits forprolonged periods may be provided with a high-specification foam cushionor equivalent pressure-distributing cushion. If there is no change inclinical status, a low-risk patient will not be reassessed under thisset of guidelines and stays within the same treatment and evaluationpathway until he or she is discharged from the care facility.

If a patient is identified as being at risk of developing a pressureulcer, the patient will be scheduled to be turned, or “rounded,” every 6hours. As with the low-risk patient, a high-spec foam cushion may beprovided if the patient uses a wheelchair or sits for prolonged periodsof time. No other monitoring or intervention is recommended by the NICEguidelines.

A high-risk patient receives a high-spec foam mattress as a preventativemeasure, provided with a high-spec cushion if they are in a wheelchairor sit for prolonged periods of time, and will be turned every 4 hours.The patient will receive a daily VSA for all areas of the body. If anarea is found to have non-blanchable erythema, an appropriateintervention will be implemented and that area re-checked by VSA every 2hours. Areas that do not exhibit non-blanchable erythema are re-checkeddaily by VSA. A personalized care plan will be developed for eachhigh-risk patient.

It can be seen from this flow chart that the majority of the time spentby caregivers will be on the high-risk patients. While this may beappropriate, it leaves the at-risk patients unmonitored and they maydevelop a stage-1 ulcer before the condition is observed by a caregiver.Furthermore, the consequence of relying on VSA to detect a problemnecessarily means that patients will develop a stage-1 ulcer before anintervention is selected or implemented. By the time that the damage hasprogressed to stage-1, it is likely that the skin will break and becomea stage-2 ulcer despite intervention. There is a clear need to identifytissue damage earlier so that interventions can prevent progression ofthe subepidermal damage to stage-1 and beyond.

FIG. 8B is an example of a current augmented treatment decision pathwayfor preventing pressure ulcers as currently implemented at some healthcare facilities. The augmented pathway adds monitoring steps to both theat-risk and the low-risk paths. A low-risk patient received a weeklyrisk assessment, for example completion of the Braden Scale assessment.A patient identified as at-risk in the initial assessment will receive ahigh-spec foam mattress as a preventative measure and will be evaluateddaily by VSA. A care plan will be developed for the monitoring andtreatment of the at-risk patient. No change is made in the care if ahigh-risk patient.

The augmented plan has the benefit of providing basic monitoring of allpatients for pressure ulcers. The additional steps require additionaltime, however, either by adding staff or further burdening the existingstaff. While superior to the recommended care pathway of FIG. 8A, thecare pathway of FIG. 8B requires more resources and still suffers fromthe limitation that a patient must develop a stage-1 ulcer before VSAidentifies the damage.

Various hospitals and care facilities use different numbers of riskcategories, ranging from two categories, low-risk and at-risk, to fouror more categories, adding categories such as “very-high-risk” to thecategories of the example of FIG. 8B. Patients are assigned to thevarious categories based on the results of the initial risk assessment.

FIG. 9 is an example flowchart of how a SEM Scanner may be used in astand-alone process to prevent pressure ulcers, in accordance with thepresent disclosure. Every incoming patient receives a complete SEMscanner assessment of all body locations that are selected formonitoring. These selected locations may include areas recommended inthe Instructions For Use (IFU) of the SEM scanner, such as the sacrumand the heels. Additional locations may be identified by the hospitaland integrated into their in-house practice. Multiple SEM measurementsare taken at and around each body location at positions that areseparated from each other, although this is generally referred to astaking multiple measurements at the body location. The SEM scannercalculates a “delta” value for each location from the set ofmeasurements taken at and around that location. The delta value is thencompared to one or more threshold values to categorize a patient. Inthis example, the patient is assigned to one of two risk categories:low-risk and at-risk.

In an aspect, the clinician will perform an SEM scan of a body locationidentified as having possible damage in the initial SEM scan at a firsttime interval. The clinician will also perform an SEM scan of all otherbody locations selected for monitoring at a second time interval that islonger than the first time interval. In an aspect, the values of thefirst and second time intervals are different depending on the riskcategory to which the patient has been assigned. For example, ahigh-risk patient will have a first time interval of 4 hours and asecond time interval of 1 day while an at-risk patient will have a firsttime interval of 1 day and a second time interval of 1 week. In anaspect, the time interval may be event-based, for example upon a changeof attending staff or shift change, rather than strictly based on time.In general, body locations that have elevated delta values are scannedmore often than other body locations that are monitored but havingnormal delta values in previous SEM scans.

In an aspect, the interval at which an SEM scan is performed isdetermined by the delta values from the prior SEM scan. For example, anSEM scan of a body location that had a delta value greater than or equalto a first threshold in a previous SEM scan is performed at a first timeinterval, while an SEM scan is performed at a second time interval thatis shorter than the first time interval when the prior SEM scan of abody location had a delta value greater than or equal to a secondthreshold that is higher than the first threshold.

In this example, low-risk patients receive a weekly SEM scan of all bodylocations that are selected for monitoring. This is a small effort thatprovides basic protection for even the healthiest patients, as a weeklySEM scan is likely to detect tissue damage before it becomes visible toVSA.

At-risk patients, which will include patients that would be identifiedas high-risk in the current care pathways of FIGS. 8A and 8B, willreceive specialized care based on the body location that exhibits adelta value above a threshold. For example, if the sacrum body locationhas a delta value above a threshold, the patient will be repositionedevery 6 hours and receive a SEM scan of the sacrum every day and an SEMscan of the other body locations every week.

FIG. 10 is an example flowchart of how a SEM Scanner may be used as anadjunct to further improve the augmented treatment decision pathway ofFIG. 8B, in accordance with the present disclosure. An incoming patientreceives both a risk assessment and an SEM scan of all body locationsidentified by the hospital for monitoring and the assignment of apatient to a risk category is based partially on the risk assessment andpartially on the SEM scan results. An initial delta value that isgreater than a threshold is an indication that there is possible damageat that body location. In an aspect, the assignment is based solely onthe largest initial delta value found during the initial SEM scan.

A decision whether to implement an intervention, for example turning thepatient at a first interval, is currently based on the VSA and riskassessment despite the uncertainty of whether there is early stagedamage below the skin. In an aspect, the decision to implement anintervention for a particular body site, or a general intervention suchas a high-spec mattress, is based on the delta value found for that sitein the SEM scan. If the delta value is less than a predeterminedthreshold, no intervention is required. If the delta value is greaterthan the predetermined threshold, then an intervention is selected andimplemented based partially on the body location and partially on thedelta value for that body location. The predetermined threshold forwhether or not to select and implement an intervention may be higher orlower than the threshold for determination that there is possible damageat the body location.

A comparison of the costs of provided the care pathways of FIGS. 8A, 8B,9, and 10 reveals one of the benefits of utilizing the SEM scanner tomonitor patients. Note that the costs cited herein are for patients whodo not have or develop pressure ulcers, in which case the estimatedtreatment cost jumps to $2000 for a stage-1 ulcer.

The baseline for this comparison is the augmented current practice ofFIG. 8B, which represents a current “best practice” for hospitalsstriving to reduce the incidence rate of pressure ulcers. Providing thecare of the low-risk care pathway is expected to cost an average of $26per patient for the average hospital stay of 5.6 days, the care for anat-risk patient is estimated to cost an average of $121, and a high-riskpatient is expected to cost $165. All of the care pathways rely on a VSAto detect a pressure ulcer and are otherwise implementing interventionsbased on “typical” patient progression rather than the particularpatient's condition.

Integrating the SEM scanner into the current “best practice” workflow,as shown in FIG. 10, does not lower the cost of any of the care pathwaysas no work element is being eliminated. The benefit is in the ability todetect tissue damage at an earlier stage at a minimal incremental cost.The incremental cost of adding a SEM scan to the no-risk care pathway is$2, raising the cost from approximately $26 to $28. The expected cost ofcaring for an at-risk patient who does not have an elevated SEM scandelta value, i.e. does not have subepidermal tissue damage, is alsoincreased by only $2. If an at-risk patient is found to have an elevatedSEM scan delta value, however, the patient is escalated to the high-riskcategory, where the expected cost of care increases from $165 to $169.While this may seem like an additional cost at first glance, itrepresents an increase in the level of protection provided to at-riskpatients.

FIG. 9 represents an example workflow that relies solely on an SEMscanner to monitor patients and forgoes the routine VSA. The expectedcost of preventative care for a low-risk patient is $4, compared to the$28 cost for the integrated low-risk care pathway of FIG. 10. For anat-risk patient, which is the only other category for the SEM scannercare pathway of FIG. 9, the expected cost is $97, compared to the$123-$169 costs for the at-risk and high-risk patients of the integratedcare pathway of FIG. 10.

From the foregoing, it will be appreciated that the present disclosurecan be embodied in various ways, which include but are not limited tothe following:

Embodiment 1. A method of identifying and treating a patient in need ofpressure ulcer treatment, the method comprising the steps of: evaluatinga patient for a risk of pressure ulcer in a patient upon admission to acare facility, where the evaluating comprises making a first pluralityof Sub-Epidermal Moisture (SEM) measurements in the patient, calculatinga first delta value from a portion of the first plurality of SEMmeasurements, determining whether the first delta value exceeds a firstthreshold, administering a first intervention of level-0 if the firstdelta value does not exceed the first threshold, and administering afirst intervention of level-N if the first delta value exceeds the firstthreshold, where N is an integer and N has a value of 1 or greater.

Embodiment 2. The method of embodiment 1, where the step of making afirst plurality of SEM measurements comprises using a SEM Scanner tomake each SEM measurement and produce a respective SEM value, and thestep of calculating the first delta value comprises comparing the SEMvalues produced by a portion of the first plurality of SEM measurements.

Embodiment 3. The method of embodiment 3, where the step of making afirst plurality of SEM measurements comprises making a first sub-set ofSEM measurements at the first location and at least one additionalsub-set of SEM measurements at a second location, the step ofcalculating a first delta value comprises calculating a first-locationfirst delta value from a portion of the first sub-set of measurementsand calculating a second-location first delta value from a portion ofthe second sub-set of measurements, the step of determining whether thefirst delta value exceeds a first threshold comprises determiningwhether the first-location first delta value exceeds a first-locationfirst threshold and determining whether the second-location first deltavalue exceeds a second-location first threshold, the step ofadministering a first intervention of level-0 comprises administering afirst-location-specific level-0 intervention if the first-location firstdelta does not exceed the first-location first threshold andadministering a second-location-specific level-0 intervention if thesecond-location first delta does not exceed the second-location firstthreshold, and the step of administering a first intervention of level-Ncomprises administering a first-location-specific level-N interventionif the first-location first delta exceeds the first-location firstthreshold and administering a second-location-specific level-Nintervention if the second-location first delta exceeds thesecond-location first threshold.

Embodiment 4. The method of embodiment 1, where the evaluating stepfurther comprises performing a visual assessment.

Embodiment 5. The method of embodiment 4, where the patient has novisible symptom of pressure ulcer.

Embodiment 6. The method of embodiment 1, where the evaluating stepfurther comprises performing a risk assessment.

Embodiment 7. The method of embodiment 1, where N has a value equal to1.

Embodiment 8. The method of embodiment 1, where the value of N is 2 orgreater based on an amount by which the first delta value exceeds thefirst threshold.

Embodiment 9. The method of embodiment 1, where N has a value notexceeding 10.

Embodiment 10. The method of embodiment 1, where the first interventionof level-N is an intervention that is more effective than the firstintervention of level-0.

Embodiment 11. The method of embodiment 1, further comprising the stepsof: making a second plurality of SEM measurements in the patient at afirst pre-determined frequency corresponding to the administeredintervention level, calculating a second delta value from a portion ofthe second plurality of SEM measurements, determining whether the seconddelta value exceeds a second threshold, continuing to administer thefirst intervention if the second delta value does not exceed the secondthreshold, continuing to make a plurality of SEM measurements at thefirst pre-determined frequency if the second delta value does not exceedthe second threshold, administering a second intervention of level-M ifthe second delta value exceeds the second threshold, where M is aninteger and M is greater than N, and making a plurality of SEMmeasurements at a second pre-determined frequency corresponding tolevel-M if the second delta value exceeds the second threshold.

Embodiment 12. The method of embodiment 11, where the second thresholdis the same as the first threshold.

Embodiment 13. The method of embodiment 11, where the second thresholdis greater than the first threshold.

Embodiment 14. The method of embodiment 11, where M has a value equal toN+1, but not exceeding 10.

Embodiment 15. The method of embodiment 11, where the value of M isproportional to an amount by which the second delta value exceeds thesecond threshold.

Embodiment 16. The method of embodiment 11, further comprising the stepsof: determining whether the second delta value is less than a thirdthreshold, administering a level-(N−1) intervention if the second deltavalue is less than the third threshold and if the first intervention isnot of level-0, and making a plurality of SEM measurements at apre-determined frequency corresponding to level-(N−1) if the seconddelta value is less than the third threshold.

Embodiment 17. The method of embodiment 1, where a level-0 interventionis selected from the group consisting of providing good nutrition,standard mattress, turning every 24 hours, and a combination thereof.

Embodiment 18. The method of embodiment 1, where the first delta valueexceeding the first threshold is calculated from the portion of thefirst plurality of SEM measurements taken at the patient's heel.

Embodiment 19. The method of embodiment 18, where a level-1 interventionis providing a heel boot to the patient.

Embodiment 20. The method of embodiment 18, where a level-2 interventionis changing the patient's support surface.

Embodiment 21. The method of embodiment 18, where a level-3 interventionis applying dressing to the back or sides of patient's heel.

Embodiment 22. The method of embodiment 18, where a level-4 interventionis changing the patient's sheet cover to a low-friction sheet cover.

Embodiment 23. The method of embodiment 18, where a level-5 interventionis providing a low-friction padded mattress surface for the patient'slower leg.

Embodiment 24. The method of embodiment 18, where a level-6 interventionis turning the patient at a shorter interval than currently providedfor.

Embodiment 25. The method of embodiment 18, where a level-7 interventionis applying a barrier cream to the patient's heel.

Embodiment 26. The method of embodiment 18, where a level-8 interventionis applying a neuro-muscular stimulation to the patient's heel.

Embodiment 27. The method of embodiment 18, where a level-9 interventionis applying a topical cream to the patient's heel to enhance perfusion.

Embodiment 28. The method of embodiment 18, where a level-10intervention is providing a silicon pad for the patient's lower leg.

Embodiment 29. The method of embodiment 1, where the first delta valueexceeding the first threshold is calculated from the portion of thefirst plurality of SEM measurements taken at the patient's sacrum.

Embodiment 30. The method of embodiment 29, where a level-1 interventionis selected from the group consisting of repositioning the patient witha wedge, keeping the patient's sacrum dry, and a combination thereof.

Embodiment 31. The method of embodiment 29, where a level-2 interventionis changing the patient's mattress to a pressure-alleviating mattress.

Embodiment 32. The method of embodiment 29, where a level-3 interventionis applying a dressing over the patient's sacrum.

Embodiment 33. The method of embodiment 29, where a level-4 interventionis changing the patient's mattress to a dynamic mattress.

Embodiment 34. The method of embodiment 29, where a level-5 interventionis applying a barrier cream to the patient's sacrum.

Embodiment 35. The method of embodiment 29, where a level-6 interventionis applying a neuro-muscular stimulation to the patient's sacrum.

Embodiment 36. The method of embodiment 29, where a level-7 interventionis applying a topical cream to the patient's sacrum to enhanceperfusion.

Embodiment 37. The method of embodiment 29, where a level-8 interventionis providing a silicone pad under the patient's body.

Embodiment 38. The method of embodiment 1, where a level-0pre-determined frequency is every 24 hours.

Embodiment 39. The method of embodiment 1, where a level-1pre-determined frequency is every 10 hours.

Embodiment 40. The method of embodiment 1, where a level-2pre-determined frequency is at the beginning of each nursing shift.

Embodiment 41. The method of embodiment 1, where a level-3pre-determined frequency is every 12 hours.

Embodiment 42. The method of embodiment 1, where a level-4pre-determined frequency is every 8 hours.

Embodiment 43. The method of embodiment 1, where a level-5pre-determined frequency is every 6 hours.

Embodiment 44. The method of embodiment 1, where a level-6pre-determined frequency is every 4 hours.

Embodiment 45. The method of embodiment 1, where a level-7pre-determined frequency is every 2 hours.

Embodiment 46. The method of embodiment 1, where a level-8pre-determined frequency is every 1 hour.

Embodiment 47. The method of embodiment 1, where a level-9pre-determined frequency is every 0.5 hour.

Embodiment 48. A method of slowing the progression of pressure ulcerdevelopment in a patient in need thereof, the method comprising thesteps of: identifying a current intervention of level-K received by thepatient, making a plurality of Sub-Epidermal Moisture (SEM) measurementsin the patient, calculating a delta value from a portion of theplurality of SEM measurements, determining whether the delta valueexceeds a first threshold, continuing to administer the currentintervention if the delta value does not exceed the first threshold,continuing to make a plurality of SEM measurements at a pre-determinedfrequency corresponding to level-K if the delta value does not exceedthe first threshold, administering a new intervention of level-N if thedelta value exceeds the first threshold, where N has a value greaterthan K, and making a plurality of SEM measurements at a pre-determinedfrequency corresponding to level-N if the delta value exceeds the firstthreshold.

Embodiment 49. The method of embodiment 48, where N has a value equal toK+1, but not exceeding 10.

Embodiment 50. The method of embodiment 48, where the value of N isproportional to an amount by which the delta value exceeds the firstthreshold.

Embodiment 51. The method of embodiment 48, further comprising the stepsof: determining whether the delta value is less than a second threshold,administering a level-L intervention if the delta value is less than thesecond threshold, where L has a non-negative value less than K, andmaking a plurality of SEM measurements at a pre-determined frequencycorresponding to level-L if the delta value is less than the secondthreshold.

Embodiment 52. The method of embodiment 51, where L has a value equal toL−1.

Embodiment 53. The method of embodiment 51, where the value of L isselected based on an amount by which the delta value is lower than thesecond threshold.

Embodiment 54. The method of embodiment 48, where the patient in needthereof is a patient experiencing a change of care.

Embodiment 55. The method of embodiment 48, where the patient in needthereof is a patient experiencing a change in mobility.

Embodiment 56. The method of embodiment 48, where the patient in needthereof is a patient experiencing a change in nutrition.

Embodiment 57. The method of embodiment 48, where the patient in needthereof is a patient experiencing a change in sensory perception.

Embodiment 58. The method of embodiment 48, where the patient in needthereof is a patient developing an open ulcer.

Embodiment 59. The method of embodiment 48, where the patient in needthereof is a patient recovering from an open ulcer.

Embodiment 60. The method of embodiment 48, where the patient in needthereof is a patient receiving surgery.

Embodiment 61. The method of embodiment 48, where the patient receivesspinal analgesics during the surgery.

Embodiment 62. The method of embodiment 60, where the patient receivessacral analgesics during the surgery.

Embodiment 63. The method of embodiment 60, where the surgery has aduration of more than 4 hours.

Embodiment 64. A method of selecting a pressure ulcer treatment for apatient, the method comprising the steps of: evaluating a patient for arisk of pressure ulcer in a patient upon admission to a care facility,where the evaluating step comprises making a first plurality ofSub-Epidermal Moisture (SEM) measurements in the patient, calculating afirst delta value from a portion of the first plurality of SEMmeasurements, determining whether the first delta value exceeds a firstthreshold, administering a first intervention of level-0 if the firstdelta value does not exceed the first threshold, and administering afirst intervention of level-N if the first delta value exceeds the firstthreshold, where N is an integer and N has a value of 1 or greater.

Embodiment 65. A method of stratifying groups of patients in a carefacility based on pressure ulcer risk, the method comprising the stepsof: making a plurality of Sub-Epidermal Moisture (SEM) measurements ineach of the patients, calculating a delta value from a portion of theplurality of SEM measurements for each of the patients, determiningwhether each delta value exceeds any values in a set of threshold valuescorresponding to N care levels and assigning a care level to each of thepatients, rearranging the group of patients based on each of thepatient's assigned care levels.

Embodiment 66. A method of reducing incidence of pressure ulcer inpatients admitted to a care facility, the method comprising the stepsof: evaluating a patient for a risk of pressure ulcer upon admission tothe care facility, where the evaluating step comprises making a firstplurality of Sub-Epidermal Moisture (SEM) measurements in the patient,calculating a first delta value from a portion of the first plurality ofSEM measurements, determining whether the first delta value exceeds afirst threshold, administering a first intervention of level-0 if thefirst delta value does not exceed the first threshold, and administeringa first intervention of level-N if the first delta value exceeds thefirst threshold, where N is an integer and N has a value of 1 orgreater.

Embodiment 67. The method of embodiment 66, where the incidence ofulcers in patients in the care facility is reduced to 1 in 100.

Embodiment 68. A method of identifying and treating a patient in need ofapplication of a barrier cream to the patient's heel, the methodcomprising the steps of: making a plurality of Sub-Epidermal Moisture(SEM) measurements at the patient's heel, calculating a delta value froma portion of the plurality of SEM measurements, determining whether thedelta value exceeds a threshold corresponding to level N, where N isgreater than or equal to 2, administering a barrier cream to thepatient's heel if the delta value exceeds the threshold, and making aplurality of SEM measurements every two hours if the delta value exceedsthe threshold.

Embodiment 69. A method of identifying and treating a patient in need ofapplication of a neuro-muscular stimulation to the patient's heel, themethod comprising the steps of: making a plurality of Sub-EpidermalMoisture (SEM) measurements at the patient's heel, calculating a deltavalue from a portion of the plurality of SEM measurements, determiningwhether the delta value exceeds a threshold corresponding to level N,where N is greater than or equal to 2, administering a neuro-muscularstimulation to the patient's heel if the delta value exceeds thethreshold, and making a plurality of SEM measurements every hour if thedelta value exceeds the threshold.

Embodiment 70. A method of identifying and treating a patient in need ofapplication of a topical cream to the patient's heel, the methodcomprising the steps of: making a plurality of Sub-Epidermal Moisture(SEM) measurements at the patient's heel, calculating a delta value froma portion of the plurality of SEM measurements, determining whether thedelta value exceeds a threshold corresponding to level N, where N isgreater than or equal to 2, administering a topical cream to thepatient's heel if the delta value exceeds the threshold, and making aplurality of SEM measurements every half an hour if the delta valueexceeds the threshold.

Embodiment 71. A method of identifying and treating a patient in need ofapplication of a barrier cream to the patient's sacrum, the methodcomprising the steps of: making a plurality of Sub-Epidermal Moisture(SEM) measurements at the patient's sacrum, calculating a delta valuefrom a portion of the plurality of SEM measurements, determining whetherthe delta value exceeds a threshold corresponding to level N, where N isgreater than or equal to 2, administering a barrier cream to thepatient's sacrum if the delta value exceeds the threshold, and making aplurality of SEM measurements every six hours if the delta value exceedsthe threshold.

Embodiment 72. A method of identifying and treating a patient in need ofapplication of a neuro-muscular stimulation to the patient's sacrum, themethod comprising the steps of: making a plurality of Sub-EpidermalMoisture (SEM) measurements at the patient's sacrum, calculating a deltavalue from a portion of the plurality of SEM measurements, determiningwhether the delta value exceeds a threshold corresponding to level N,where N is greater than or equal to 2, administering a neuro-muscularstimulation to the patient's sacrum if the delta value exceeds thethreshold, and making a plurality of SEM measurements every four hoursif the delta value exceeds the threshold.

Embodiment 73. A method of identifying and treating a patient in need ofapplication of a topical cream to the patient's sacrum, the methodcomprising the steps of: making a plurality of Sub-Epidermal Moisture(SEM) measurements at the patient's sacrum, calculating a delta valuefrom a portion of the plurality of SEM measurements, determining whetherthe delta value exceeds a threshold corresponding to level N, where N isgreater than or equal to 2, administering a topical cream to thepatient's sacrum if the delta value exceeds the threshold, and making aplurality of SEM measurements every two hours if the delta value exceedsthe threshold.

While the present disclosure has been described with reference toparticular aspects, it will be understood by those skilled in the artthat various changes may be made and equivalents may be substituted forelements thereof without departing from the scope of the disclosure. Inaddition, many modifications may be made to a particular situation ormaterial to the teachings of the disclosure without departing from thescope of the disclosure. Therefore, it is intended that the disclosurenot be limited to the particular aspects disclosed but that thedisclosure will include all aspects falling within the scope and spiritof the appended claim

The invention claimed is:
 1. A method of identifying and treating apatient in need of pressure ulcer treatment, the method comprising thesteps of: (a) evaluating a patient for a risk of pressure ulcer in apatient upon admission to a care facility, where the evaluatingcomprises making a first plurality of Sub-Epidermal Moisture (SEM)measurements in the patient comprising a first sub-set of SEMmeasurements at a first location and at least one additional sub-set ofSEM measurements at a second location, (b) calculating from a portion ofthe first plurality of SEM measurements: (i) a first-location firstdelta value from a portion of the first sub-set of SEM measurements, and(ii) a second-location first delta value from a portion of the at leastone additional sub-set of SEM measurements at the second location, (c)determining whether the first-location first delta value exceeds afirst-location first threshold and determining whether thesecond-location first delta value exceeds a second-location firstthreshold, and (d) administering a first-location-specific interventionof level-0 if the first-location first delta value does not exceed thefirst-location first threshold and administering asecond-location-specific intervention of level-0 if the second locationfirst delta value does not exceed the second-location first threshold,or (e) administering a first-location-specific intervention of level-Nif the first-location first delta value exceeds the first-location firstthreshold and administering a second-location-specific intervention oflevel-N if the second-location-specific first delta value exceeds thesecond-location first threshold, wherein N is an integer and N has avalue of 1 or greater.
 2. The method of claim 1, wherein step (a)comprises using a SEM Scanner to make each SEM measurement and produce arespective SEM value.
 3. The method of claim 1, wherein step (a) furthercomprises performing a visual assessment.
 4. The method of claim 3,wherein the patient has no visible symptom of pressure ulcer.
 5. Themethod of claim 1, wherein step (a) further comprises performing a riskassessment.
 6. The method of claim 1, wherein N has a value equal to 1.7. The method of claim 1, wherein the value of N is 2 or greater basedon an amount by which the first delta value exceeds the first threshold.8. The method of claim 1, wherein N has a value not exceeding
 10. 9. Themethod of claim 1, wherein the first intervention of level-N is anintervention that is more effective than the first intervention oflevel-0.
 10. The method of claim 1, wherein a level-0 intervention isselected from the group consisting of providing good nutrition, standardmattress, turning every 24 hours, and a combination thereof.
 11. Themethod of claim 1, wherein the first delta value exceeding the firstthreshold is calculated from the portion of the first plurality of SEMmeasurements taken at the patient's heel.
 12. The method of claim 11,wherein a level-1 intervention is providing a heel boot to the patient.13. The method of claim 11, wherein a level-2 intervention is changingthe patient's support surface.
 14. The method of claim 11, wherein alevel-3 intervention is applying dressing to the back or sides ofpatient's heel.
 15. The method of claim 11, wherein a level-4intervention is changing the patient's sheet cover to a low-frictionsheet cover.
 16. The method of claim 11, wherein a level-5 interventionis providing a low-friction padded mattress surface for the patient'slower leg.
 17. The method of claim 11, wherein a level-6 intervention isturning the patient at a shorter interval than currently provided for.18. The method of claim 11, wherein a level-7 intervention is applying abarrier cream to the patient's heel.
 19. The method of claim 11, whereina level-8 intervention is applying a neuro-muscular stimulation to thepatient's heel.
 20. The method of claim 11, wherein a level-9intervention is applying a topical cream to the patient's heel toenhance perfusion.
 21. The method of claim 11, wherein a level-10intervention is providing a silicon pad for the patient's lower leg. 22.A method of identifying and treating a patent in need of pressure ulcertreatment, the method comprising the steps of: (a) evaluating a patentfor a risk of pressure ulcer in a patient upon admission to a carefacility, where the evaluating comprises: (i) making a first pluralityof Sub-Epidermal Moisture (SEM) measurements in the patient, and (ii)making a second plurality of SEM measurements in the patient at a firstpre-determined frequency corresponding to the administered interventionlevel, (b) calculating a first delta value from a portion of the firstplurality of SEM measurements, (c) calculating a second delta value froma portion of the second plurality of SEM measurements, (d) determiningwhether the first delta value exceeds a first threshold, (e) determiningwhether the second delta value exceeds a second threshold, administeringa first intervention of level-N if the first delta value exceeds thefirst threshold, and continuing to administer the first intervention ifthe second delta value does not exceed the second threshold, wherein Nis an integer and N has a value of 1 or greater, (f) continuing to makea plurality of SEM measurements at the first pre-determined frequency ifthe second delta value does not exceed the second threshold, (g)administering a second intervention of level-M if the second delta valueexceeds the second threshold, where M is an integer and M is greaterthan N, and (h) making a plurality of SEM measurements at a secondpre-determined frequency corresponding to level-M if the second deltavalue exceeds the second threshold.
 23. The method of claim 22, whereinthe second threshold is the same as the first threshold.
 24. The methodof claim 22, wherein the second threshold is greater than the firstthreshold.
 25. The method of claim 22, wherein M has a value equal toN+1, but not exceeding
 10. 26. The method of claim 22, wherein the valueof M is proportional to an amount by which the second delta valueexceeds the second threshold.
 27. The method of claim 22, furthercomprising the steps of: (i) determining whether the second delta valueis less than a third threshold, (j) administering a level-(N−1)intervention if the second delta value is less than the third thresholdand if the first intervention is not of level-0, and (k) making aplurality of SEM measurements at a pre-determined frequencycorresponding to level-(N−1) if the second delta value is less than thethird threshold.